Your search keyword '"Candidate Gene Analysis"' showing total 233 results

1. Fine mapping and characterization of stripe rust resistance gene YrAYH in near-isogenic lines derived from a cross involving wheat landrace Anyuehong

Author

Li Long, Jue Li, Linyu Huang, Huiling Jin, Fangnian Guan, Haipeng Zhang, Sasa Zhao, Hao Li, Zhien Pu, Wei Li, Qiantao Jiang, Yuming Wei, Jian Ma, Houyang Kang, Shoufen Dai, Pengfei Qi, Qiang Xu, Mei Deng, Youliang Zheng, Yunfeng Jiang, Matthew James Moscou, and Guoyue Chen

Subjects

Candidate gene analysis, Crop protection, Puccinia striiformis, Transcriptome analyses, Agriculture, Agriculture (General), S1-972

Abstract

Stripe rust, caused by Puccinia striiformis f. sp. tritici (Pst), is a devastating disease in wheat worldwide. Discovering and characterizing new resistance genes/QTL is crucial for wheat breeding programs. In this study, we fine-mapped and characterized a stripe rust resistance gene, YRAYH, on chromosome arm 5BL in the Chinese wheat landrace Anyuehong (AYH). Evaluations of stripe rust response to prevalent Chinese Pst races in near-isogenic lines derived from a cross of Anyuehong and Taichung 29 showed that YrAYH conferred a high level of resistance at all growth stages. Fine mapping using a large segregating population of 9748 plants, narrowed the YRAYH locus to a 3.7 Mb interval on chromosome arm 5BL that included 61 annotated genes. Transcriptome analysis of two NIL pairs identified 64 upregulated differentially expressed genes (DEGs) in the resistant NILs (NILs-R). Annotations indicated that many of these genes have roles in plant disease resistance pathways. Through a combined approach of fine-mapping and transcriptome sequencing, we identified a serine/threonine-protein kinase SRPK as a candidate gene underlying YrAYH. A unique 25 bp insertion was identified in the NILs-R compared to the NILs-S and previously published wheat genomes. An InDel marker was developed and co-segregated with YrAYH. Agronomic trait evaluation of the NILs suggested that YrAYH not only reduces the impact of stripe rust but was also associated with a gene that increases plant height and spike length.

Published

2024

2. 小麦新种质“普冰 3228”穗下节长度 QTL 定位与候选基因分析.

Author

王健胜, 王二伟, 马爱锄, and 程世平

Abstract

【Objective】The present study aimed to identify the new loci/genes controlling uppermost-internode length and explore the molecular genetic mechanism of the uppermost-internode length in ‘Pubing3228’. 【Method】The high density molecular linkage map was constructed for the RIL population derived from the cross between ‘Pubing3228’ and ‘Jing4839’using 55K SNP chip. Inclusive Composite Interval Mapping method was used to carry out QTL mapping for uppermost-internode length. Based on the identified QTLs, the candidate genes were predicted for uppermost-internode length.【Result】The large variation was found for the uppermost-internode length in the RIL population and the uppermost-internode length of each line varied from 16.00 to 117.50 cm. Total of 6 QTLs were identified for uppermost-internode length and these QTLs were distributed on chromosome 2B, 4B, 4D, 5B and 6D. LOD value of these QTLs varied from 2.55 to 7.88 and the phenotypic variation explaination（PVE) of that ranged from 3.43% to 15.84%. Furthermore, most QTLs were contributed by ‘Pubing3228’. Two major QTLs were identified for uppermost-internode length. One was QUIL-4B.e1 and was mapped to the distance between AX-109373490 and AX-111540511 on chromosome 4B. Another was QUIL-4D.e1 and was mapped to the distance between AX-110984743 and AX-109230716 on chromosome 4D. One reliable QTL, QUIL-4D, was detected under two environments. The candidate analysis was performed for uppermost-internode length and 15 candidate genes were obtained. These candidate genes mainly encoded some related proteins and functional enzymes, which could regulate or affect plant metabolic activities and thus affect the uppermost-internode length of wheat. For example, TraesCS4D01G039200 possibly encoded a fibrillar family protein that could directly affect the uppermost-internode length of wheat. TraesCS4D01G040300 possibly encoded a metabolite transporter protein, which may affect the length uppermost-internode of wheat by regulating the distribution of metabolites in the uppermost-internode region. 【Conclusion】Total of 6 QTLs and 15 candidate genes were identified for uppermost-internode length. These results not only help to elucidate the genetic mechanism of uppermost-internode length but also provide new wheat germplasm and effective information for the improvement of uppermost-internode length in the future. [ABSTRACT FROM AUTHOR]

Published

2024

3. Editorial: Genomics and phenomics of crop wild relatives (CWRs) for crop improvement

Author

Parimalan Rangan, Kanakasabapathi Pradheep, Sunil Archak, Petr Smýkal, and Robert Henry

Subjects

crop wild relative (CWR), genomics, phenomics, domestication cost, candidate gene analysis, de novo domestication, Plant culture, SB1-1110

Published

2023

4. Natural variation in GhKASI_A05 modulates cottonseed oil content in Gossypium hirsutum L.

Author

Le, Yu, Zhao, Wenxia, Liu, Xinxin, Chen, Meilin, Xiong, Xinhui, Zhang, Xianlong, and Lin, Zhongxu

Abstract

Cotton is of great economic value because of its fiber that is used in natural textile commodities and its seeds that contain an edible oil with a high content of unsaturated fatty acids and biodiesel applications. Here, we reported that GhKASI_A05 was associated with the cottonseed oil content (SOC) in a natural population via candidate gene association analysis. An 11-bp Indel located in the GhKASI_A05 promoter was found to contribute to SOC and differential expression in upland cotton inbred accessions. Interaction analysis showed that GhWRI1 , an AP2/EREBP family transcription factor, that reportedly functions in plant seed oil and fatty acids (FAs) accumulation, directly bound to AW-box cis-elements in two haplotypes of the GhKASI_A05 promoter and activated the expression of GhKASI_A05 at different levels. The seed-specific overexpression of GhKASI_A05 resulted in increased seed size, weight, and protein content, and C16:0 and C18:1 contents but reduced SOC. Our results provide new insights into the biological function of GhKASI in SOC and effective strategies for cotton breeding in the future. • An 11-bp Indel in GhKASI_A05 promoter is associated with SOC. • The variations in GhKASI_A05 promoter lead to differential expression in cotton. • GhWRI1 activates the two haplotypes of GhKASI_A05 promoter at different levels. • Overexpression GhKASI_A05 enhances protein but reduces oil content in seed. [ABSTRACT FROM AUTHOR]

Published

2024

5. Transcriptomics Integrated with Metabolomics Unveil Carotenoids Accumulation and Correlated Gene Regulation in White and Yellow-Fleshed Turnip (Brassica rapa ssp. rapa).

Author

Ren, Yanjing, Han, Rui, Ma, Yidong, Li, Xiaojuan, Deng, Changrong, Zhao, Mengliang, Li, Jiang, Hou, Quangang, Zhong, Qiwen, and Shao, Dengkui

Subjects

*GENETIC regulation, *CHINESE cabbage, *TURNIPS, *BRASSICA, *METABOLOMICS, *NUTRITIONAL value, *CAROTENOIDS

Abstract

Turnip (Brassica rapa ssp. rapa) is considered to be a highly nutritious and health-promoting vegetable crop, whose flesh color can be divided into yellow and white. It is widely accepted that yellow-fleshed turnips have higher nutritional value. However, reports about flesh color formation is lacking. Here, the white-fleshed inbred line, W21, and yellow-fleshed inbred line, W25, were profiled from the swollen root of the turnip at three developmental periods to elucidate the yellow color formation. Transcriptomics integrated with metabolomics analysis showed that the PSY gene was the key gene affecting the carotenoids formation in W25. The coding sequence of BrrPSY-W25 was 1278 bp and that of BrrPSY-W21 was 1275 bp, and BrrPSY was more highly expressed in swollen roots in W25 than in W21. Transient transgenic tobacco leaf over-expressing BrrPSY-W and BrrPSY-Y showed higher transcript levels and carotenoids contents. Results revealed that yellow turnip formation is due to high expression of the PSY gene rather than mutations in the PSY gene, indicating that a post-transcriptional regulatory mechanism may affect carotenoids formation. Results obtained in this study will be helpful for explaining the carotenoids accumulation of turnips. [ABSTRACT FROM AUTHOR]

Published

2022

6. Quantitative Trait Loci Mapping and Candidate Gene Analysis of Low Temperature Tolerance in Cucumber Seedlings

Author

Shaoyun Dong, Weiping Wang, Kailiang Bo, Han Miao, Zichao Song, Shuang Wei, Shengping Zhang, and Xingfang Gu

Subjects

cucumber, low temperature tolerance, quantitative trait locus mapping, in silico bulked segregant analysis, candidate gene analysis, Plant culture, SB1-1110

Abstract

Cucumber (Cucumis sativus L.) is an economically important vegetable crop worldwide, but it is sensitive to low temperatures. Cucumber seedlings exposed to long-term low temperature stress (LT), i.e., below 20°C during the day, and 8°C at night, exhibit leaf yellowing, accelerated senescence, and reduced yield, therefore posing a threat to cucumber production. Studying the underlying mechanisms involved in LT tolerance in cucumber seedlings, and developing germplasm with improved LT-tolerance could provide fundamental solutions to the problem. In this study, an F2 population was generated from two parental lines, “CG104” (LT-tolerant inbred line) and “CG37” (LT-sensitive inbred line), to identify loci that are responsible for LT tolerance in cucumber seedlings. Replicated phenotypic analysis of the F2-derived F3 family using a low-temperature injury index (LTII) suggested that the LT tolerance of cucumber seedlings is controlled by multiple genes. A genetic map of 990.8 cM was constructed, with an average interval between markers of 5.2 cM. One quantitative trait loci (QTL) named qLTT5.1 on chromosome 5, and two QTLs named qLTT6.1 and qLTT6.2 on chromosome 6 were detected. Among them, qLTT6.2 accounted for 26.8 and 24.1% of the phenotypic variation in two different experiments. Single-nucleotide polymorphism (SNP) variations within the region of qLTT6.2 were analyzed using two contrasting in silico bulks generated from the cucumber core germplasm. Result showed that 214 SNPs were distributed within the 42-kb interval, containing three candidate genes. Real-time quantitative reverse transcription PCR and sequence analysis suggested that two genes Csa6G445210, an auxin response factor, and Csa6G445230, an ethylene-responsive transmembrane protein, might be candidate genes responsible for LT tolerance in cucumber seedlings. This study furthers the understanding of the molecular mechanism underlying LT tolerance in cucumber seedlings, and provides new markers for molecular breeding.

Published

2019

7. Fine mapping, candidate genes analysis, and characterization of a brown planthopper (Nilaparvata lugens Stål) resistance gene in the rice variety ARC5984.

Author

Lin, Jiebin, Wang, Xinyi, Li, Yang, Bi, Fanggui, Cheng, Ling, Huang, Fengkuang, Li, Rongbai, and Qiu, Yongfu

Subjects

*NILAPARVATA lugens, *RICE, *RICE diseases & pests, *GENE mapping, *PLANT gene mapping, *GENES, *RICE breeding

Abstract

The brown planthopper (Nilaparvata lugens Stål; BPH) is the most destructive rice pests worldwide. Identification and application of major resistance genes and cultivation of resistant varieties are the most efficient methods to control this insect. In this study, the rice variety, ARC5984, was detected to be highly resistant to BPH due to the presence of a major resistance gene, which has primarily been mapped in a 6-cM region on the long arm of chromosome 4. Fine mapping of the resistance gene was performed using the recombinants derived from BC1F2 individuals; the target gene was described to be a 46-kb region in the Nipponbare genome. Based on the information on the genomic sequences of the varieties Nipponbare, ZS97 and MH63, six, seven and 11 candidate genes were identified in the finally located region, respectively. The relative expression of the candidate genes Os04g35190 and Os04g35210 was significantly different between the resistant and susceptible plants after BPH infestation. The sequencing results indicated the coding domain sequence (CDS) of Os04g35210 from ARC5984 to be identical to that of Bph6. But the CDS of Os04g35190 was different between in ARC5984 and 9311. Moreover, the preliminary-near-isogenic lines (pre-NILs; the lines carrying resistance genes) with genetic background of the 9311 showed significant antixenosis to BPH, and thus, restricted its growth and development when compared with that in the susceptible line of 9311. Finally, a marker-assisted selection (MAS) technique was developed for the markers, RM5635 and BF9; its efficiency has been confirmed by applying it in screening of backcrossed individuals. The development in the fine mapping of the major gene will facilitate efforts of cloning this important resistance gene and to apply it in breeding of BPH-resistance rice varieties. [ABSTRACT FROM AUTHOR]

Published

2020

8. Quantitative Trait Loci Mapping and Candidate Gene Analysis of Low Temperature Tolerance in Cucumber Seedlings.

Author

Dong, Shaoyun, Wang, Weiping, Bo, Kailiang, Miao, Han, Song, Zichao, Wei, Shuang, Zhang, Shengping, and Gu, Xingfang

Subjects

CUCUMBERS, SEEDLINGS, LOCUS (Genetics), PLANT gene mapping, EFFECT of temperature on germination, EFFECT of temperature on vegetables

Abstract

Cucumber (Cucumis sativus L.) is an economically important vegetable crop worldwide, but it is sensitive to low temperatures. Cucumber seedlings exposed to long-term low temperature stress (LT), i.e., below 20°C during the day, and 8°C at night, exhibit leaf yellowing, accelerated senescence, and reduced yield, therefore posing a threat to cucumber production. Studying the underlying mechanisms involved in LT tolerance in cucumber seedlings, and developing germplasm with improved LT-tolerance could provide fundamental solutions to the problem. In this study, an F2 population was generated from two parental lines, "CG104" (LT-tolerant inbred line) and "CG37" (LT-sensitive inbred line), to identify loci that are responsible for LT tolerance in cucumber seedlings. Replicated phenotypic analysis of the F2-derived F3 family using a low-temperature injury index (LTII) suggested that the LT tolerance of cucumber seedlings is controlled by multiple genes. A genetic map of 990.8 cM was constructed, with an average interval between markers of 5.2 cM. One quantitative trait loci (QTL) named qLTT5.1 on chromosome 5, and two QTLs named qLTT6.1 and qLTT6.2 on chromosome 6 were detected. Among them, qLTT6.2 accounted for 26.8 and 24.1% of the phenotypic variation in two different experiments. Single-nucleotide polymorphism (SNP) variations within the region of qLTT6.2 were analyzed using two contrasting in silico bulks generated from the cucumber core germplasm. Result showed that 214 SNPs were distributed within the 42-kb interval, containing three candidate genes. Real-time quantitative reverse transcription PCR and sequence analysis suggested that two genes Csa6G445210 , an auxin response factor, and Csa6G445230 , an ethylene-responsive transmembrane protein, might be candidate genes responsible for LT tolerance in cucumber seedlings. This study furthers the understanding of the molecular mechanism underlying LT tolerance in cucumber seedlings, and provides new markers for molecular breeding. [ABSTRACT FROM AUTHOR]

Published

2019

9. The JAX Synteny Browser for mouse-human comparative genomics.

Author

Kolishovski, Georgi, Lamoureux, Anna, Hale, Paul, Richardson, Joel E., Recla, Jill M., Adesanya, Omoluyi, Simons, Al, Kunde-Ramamoorthy, Govindarajan, and Bult, Carol J.

Subjects

*COMPARATIVE genomics, *APPLICATION software, *LABORATORY mice, *GENOMES, *PHENOTYPES

Abstract

Visualizing regions of conserved synteny between two genomes is supported by numerous software applications. However, none of the current applications allow researchers to select genome features to display or highlight in blocks of synteny based on the annotated biological properties of the features (e.g., type, function, and/or phenotype association). To address this usability gap, we developed an interactive web-based conserved synteny browser, The Jackson Laboratory (JAX) Synteny Browser. The browser allows researchers to highlight or selectively display genome features in the reference and/or the comparison genome according to the biological attributes of the features. Although the current implementation for the browser is limited to the reference genomes for the laboratory mouse and human, the software platform is intentionally genome agnostic. The JAX Synteny Browser software can be deployed for any two genomes where genome coordinates for syntenic blocks are defined and for which biological attributes of the features in one or both genomes are available in widely used standard bioinformatics file formats. The JAX Synteny Browser is available at: http://syntenybrowser.jax.org/. The code base is available from GitHub: https://github.com/TheJacksonLaboratory/syntenybrowser and is distributed under the Creative Commons Attribution license (CC BY). [ABSTRACT FROM AUTHOR]

Published

2019

10. Editorial: Genomics and phenomics of crop wild relatives (CWRs) for crop improvement.

Author

Rangan, Parimalan, Pradheep, Kanakasabapathi, Archak, Sunil, Smýkal, Petr, and Henry, Robert

Subjects

CROP improvement, GENOMICS, CROPS, RELATIVES

Published

2023

11. Genome-Wide Association Study Reveals Candidate Genes for Flowering Time Variation in Common Bean (Phaseolus vulgaris L.)

Author

Lorenzo Raggi, Leonardo Caproni, Andrea Carboni, and Valeria Negri

Subjects

Phaseolus vulgaris L., flowering time control, ddRAD-seq, GWAS, candidate gene analysis, Plant culture, SB1-1110

Abstract

The common bean is one of the most important staples in many areas of the world. Extensive phenotypic and genetic characterization of unexplored bean germplasm are still needed to unlock the breeding potential of this crop. Dissecting genetic control of flowering time is of pivotal importance to foster common bean breeding and to develop new varieties able to adapt to changing climatic conditions. Indeed, flowering time strongly affects yield and plant adaptation ability. The aim of this study was to investigate the genetic control of days to flowering using a whole genome association approach on a panel of 192 highly homozygous common bean genotypes purposely developed from landraces using Single Seed Descent. The phenotypic characterization was carried out at two experimental sites throughout two growing seasons, using a randomized partially replicated experimental design. The same plant material was genotyped using double digest Restriction-site Associated DNA sequencing producing, after a strict quality control, a dataset of about 50 k Single Nucleotide Polymorphisms (SNPs). The Genome-Wide Association Study revealed significant and meaningful associations between days to flowering and several SNP markers; seven genes are proposed as the best candidates to explain the detected associations.

Published

2019

12. Genome-Wide Association Study Reveals Candidate Genes for Flowering Time Variation in Common Bean (Phaseolus vulgaris L.).

Author

Raggi, Lorenzo, Caproni, Leonardo, Carboni, Andrea, and Negri, Valeria

Subjects

COMMON bean, FLOWERING time, PLANT breeding, SINGLE nucleotide polymorphisms, PLANT adaptation, GENES

Abstract

The common bean is one of the most important staples in many areas of the world. Extensive phenotypic and genetic characterization of unexplored bean germplasm are still needed to unlock the breeding potential of this crop. Dissecting genetic control of flowering time is of pivotal importance to foster common bean breeding and to develop new varieties able to adapt to changing climatic conditions. Indeed, flowering time strongly affects yield and plant adaptation ability. The aim of this study was to investigate the genetic control of days to flowering using a whole genome association approach on a panel of 192 highly homozygous common bean genotypes purposely developed from landraces using Single Seed Descent. The phenotypic characterization was carried out at two experimental sites throughout two growing seasons, using a randomized partially replicated experimental design. The same plant material was genotyped using double digest Restriction-site Associated DNA sequencing producing, after a strict quality control, a dataset of about 50 k Single Nucleotide Polymorphisms (SNPs). The Genome-Wide Association Study revealed significant and meaningful associations between days to flowering and several SNP markers; seven genes are proposed as the best candidates to explain the detected associations. [ABSTRACT FROM AUTHOR]

Published

2019

13. QTL Mapping of Heat Tolerance in Cucumber (Cucumis sativus L.) at Adult Stage

Author

Yanyan Liu, Shaoyun Dong, Shuang Wei, Weiping Wang, Han Miao, Kailiang Bo, Xingfang Gu, and Shengping Zhang

Subjects

cucumber (Cucumis sativus L.), heat tolerance, genetic analysis, QTL mapping, candidate gene analysis, Botany, QK1-989

Abstract

Heat stress during cucumber production often leads to sunburn of leaves, growth retardation of stems and roots, fruit malformation, and even plant death, which have a great impact on the fruit quality and yield. However, no studies on the genetic inheritance and quantitative trait locus mapping of heat tolerance in cucumber at the adult stage have been reported yet. In this study, a set of 86 recombinant inbred lines (RILs) derived from “99281” (heat-tolerant) and “931” (heat-sensitive) were used to identify the heat tolerance QTL in summer 2018, 2019, and 2020. Eight-week-old plants were exposed to a natural high temperature environment in the field, and the heat injury index was used to indicate the heat tolerance performance. Genetic analysis showed that the heat tolerance of adult cucumber is quantitatively inherited. One QTL named qHT1.1 on chromosome 1 was identified. It was delimited by Indel 3-3 and Indel 1-15 and explained 59.6%, 58.1%, and 40.1% of the phenotypic variation in 2018, 2019, and 2020, respectively. The efficiency of marker HT-1, which is closely linked to the locus, was tested using 62 cucumber germplasm accessions and was found to have an accuracy of 97.8% in heat sensitive plants. The qHT1.1 was delimited to a 694.5-kb region, containing 98 genes, nine of which may be involved in heat tolerance. Further sequence analysis showed that there are three single-base substitutions within the coding sequences of Csa1G004990. Gene expression analyses suggested that the expression of Csa1G004990 was significantly higher in “99281” than “931” at 14d, 35d, 42d, and 49d after transplanting. This study provides practically useful markers for heat tolerance breeding in cucumber and provides a basis for further identifying heat tolerant genes.

Published

2021

14. Candidate Gene of NOS3, MMP3, AGT, and AGT1R and Pathway Analyses for Platelet Reactivity and Clinical Outcomes of Repeat Revascularization After First PCI in Chinese Patients

Author

Yimin Cui, Zhiyan Liu, Guangyan Mu, Qian Xiang, Qiufen Xie, Shuang Zhou, Yanjun Gong, Zhe Wang, and Zining Wang

Subjects

Pharmacology, medicine.medical_specialty, Candidate gene, business.industry, medicine.medical_treatment, Percutaneous coronary intervention, General Medicine, Revascularization, Clopidogrel, medicine.disease, P2Y12, Restenosis, Internal medicine, Conventional PCI, medicine, Cardiology, Pharmacology (medical), cardiovascular diseases, business, Cardiology and Cardiovascular Medicine, Candidate Gene Analysis, medicine.drug

Abstract

Purpose Major disadvantages of the percutaneous coronary intervention (PCI) are the high occurrence of repeat revascularization due to restenosis and disease progression. The current study aimed to identify indicators that can predict the risk of repeat revascularization. Methods A total of 143 patients who underwent PCI and had genetic test results were enrolled. We retrospectively reviewed their medical records after the first PCI. P2Y12 reaction units (PRU) test results were obtained by VerifyNow; 372 SNPs of NOS3, MMP3, AGT, and AGT1R gene and 380 genes related to platelet activation-related processes and clopidogrel activity were selected for analysis. Repeat revascularization and in-stent restenosis (ISR) were used as clinical outcomes, and PRU and ADP aggregation rates were used as platelet function outcomes in analysis. Results After the first PCI, the incidence of repeat revascularization at 18, 30, and 42 months was 14.1% (20/142), 17.5% (24/137), and 39.7% (31/78), respectively. In the candidate gene analysis, Rs 78830 (NOS3) was associated with both ADP aggregation rate and 18- and 30-month ISR, and rs 62275847 (AGTR1) was associated with both ADP aggregation rate and 30-month ISR. In the pathway, gene-set analysis, the linkage rs471683 and rs7785386 of GNAI1|GNAT3 were associated with PRU and ADP aggregation rate, 18-months and 30-months ISR, and repeat revascularization within 30 months. Rs1715389 of GNAI1|GNAT3 were associated with both PRU and ADP aggregation rate, 18-months and 30-months ISR, and repeat revascularization within 30 months. Rs7313458 of ITPR2 were associated with PRU and ADP aggregation rate, 18-months and 30-months ISR, and repeat revascularization within 18 months. Conclusions The genetic polymorphisms of rs78830(NOS3), rs62275874 (AGTR1), linkage rs471683 and rs7785386 (GNAI1|GNAT3), rs1715389(GNAI1|GNAT3), and rs7313458 (ITPR2) may lead to an increased risk of in-stent restenosis and revascularization after the first PCI in Chinese patients by affecting the efficacy of clopidogrel. The above six SNP may be used as potential genetic biomarkers for high risk of in-stent restenosis and revascularization after the first PCI in Chinese patients.

Published

2021

15. Investigation of the novel transcriptional changes under combined drought and bacterial stress underpins the role of AtMYB96 in imparting tolerance

Author

Muthappa Senthil-Kumar and Aanchal Choudhary

Subjects

Transcriptome, Biological pathway, Microarray, Gene expression, Mutant, Plant Science, Computational biology, Biology, Agronomy and Crop Science, Gene, Candidate Gene Analysis, Transcription factor, Biotechnology

Abstract

The physiological and molecular responses instigated to combat drought and bacterial pathogens often work antagonistically and, in most cases, the impact of combined stress is more detrimental to plant growth. Interestingly, plants exposed to this stress combination show a novel transcriptome fingerprint with a significant set of genes that are uniquely altered under combined stress. Despite this being reported in several transcriptomic datasets, our molecular understanding of these combined stress-specific genes and pathways is still in its nascent stages. These unique genes and the dedicated regulatory pathways are important for understanding the molecular aspects of signaling responses under combined stress. In this study, a previously available microarray dataset was extensively reanalysed to identify the novel genes and pathways specifically altered under combined stress. Using a combination of bioinformatic and data-guided approaches, we identified major biological pathways, transcription factor (TF) network and novel motifs potentially involved in the combined stress-specific responses. The candidate gene analysis using gene expression and mutant analysis identified AtMYB96 as an important TF involved in combined stress response. Taken together, our analysis pinpoints many novel genes that can be used for understanding the molecular mechanism of how plants deal with the combination of drought and bacterial pathogen.

Published

2021

16. Fine mapping and candidate gene analysis of qGSN5, a novel quantitative trait locus coordinating grain size and grain number in rice

Author

Mengya Jin, Peng Qin, Zhengyan Xu, Shijie Zhan, Ting Li, Xiaoling Hu, Yuping Wang, Min Yuan, Shigui Li, Peng Gao, Hua Yuan, Wencheng Song, Weilan Chen, Bin Tu, Xiaobo Zhu, and Bingtian Ma

Subjects

Genetics, Candidate gene, Quantitative Trait Loci, Chromosome Mapping, food and beverages, Oryza, Locus (genetics), General Medicine, Quantitative trait locus, Biology, Genes, Plant, Genetic analysis, Chromosomes, Plant, Grain size, Phenotype, Seeds, Pentatricopeptide repeat, Edible Grain, Agronomy and Crop Science, Candidate Gene Analysis, Genetic Association Studies, Biotechnology, Panicle

Abstract

KEY MESSAGE: qGSN5, a novel quantitative trait locus coordinating grain size and grain number in rice, was fine-mapped to an 85.60-kb region. GS3 may be a suppressor of qGSN5. Grain size and grain number are two factors that directly determine rice grain yield; however, the underlying genetic mechanisms are complicated and remain largely unclear. In this study, a chromosome segment substitution line (CSSL), CSSL28, which showed increased grain size and decreased grain number per panicle, was identified in a set of CSSLs derived from a cross between 93-11 (recipient) and Nipponbare (donor). Four substitution segments were identified in CSSL28, and the substitution segment located on chromosome 5 was responsible for the phenotypes of CSSL28. Thus, we defined this quantitative trait locus (QTL) as grain size and grain number 5 (qGSN5). Cytological and quantitative PCR analysis showed that qGSN5 regulates the development of the spikelet hull by affecting cell proliferation. Genetic analysis showed that qGSN5 is a semi-dominant locus regulating grain size and grain number. Through map-based cloning and overlapping substitution segment analysis, qGSN5 was finally delimited to an 85.60-kb region. Based on sequence and quantitative PCR analysis, Os05g47510, which encodes a P-type pentatricopeptide repeat protein, is the most likely candidate gene for qGSN5. Pyramiding analysis showed that the effect of qGSN5 was significantly lower in the presence of a functional GS3 gene, indicating that GS3 may be a suppressor of qGSN5. In addition, we found that qGSN5 could improve the grain shape of hybrid rice. Together, our results lay the foundation for cloning a novel QTL coordinating grain size and grain number in rice and provide a good genetic material for long-grain hybrid rice breeding.

Published

2021

17. Pharmacogenomics of celiprolol – evidence for a role of P‐glycoprotein and organic anion transporting polypeptide 1A2 in celiprolol pharmacokinetics

Author

Mikko Niemi, Maria Paile-Hyvärinen, Mikko Neuvonen, Janne T. Backman, Tuija Tapaninen, Aleksi Tornio, and Päivi Hirvensalo

Subjects

Candidate gene, ATP Binding Cassette Transporter, Subfamily B, Genotype, Organic Anion Transporters, RM1-950, Pharmacology, Polymorphism, Single Nucleotide, 030226 pharmacology & pharmacy, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, 0302 clinical medicine, Pharmacokinetics, medicine, Humans, ATP Binding Cassette Transporter, Subfamily B, Member 1, General Pharmacology, Toxicology and Pharmaceutics, Celiprolol, 030304 developmental biology, P-glycoprotein, 0303 health sciences, biology, Chemistry, General Neuroscience, Haplotype, General Medicine, Organic anion-transporting polypeptide, Pharmacogenetics, biology.protein, Therapeutics. Pharmacology, Public aspects of medicine, RA1-1270, Candidate Gene Analysis, medicine.drug

Abstract

The aim of this study was to search for associations of genetic variants with celiprolol pharmacokinetics in a large set of pharmacokinetic genes, and, more specifically, in a set of previously identified candidate genes ABCB1, SLCO1A2, and SLCO2B1. To this end, we determined celiprolol single‐dose (200 mg) pharmacokinetics and sequenced 379 pharmacokinetic genes in 195 healthy volunteers. Analysis with 46,064 common sequence variants in the 379 genes did not identify any novel genes associated with celiprolol exposure. The candidate gene analysis showed that the ABCB1 c.3435T>C and c.2677T/G>A, and the SLCO1A2 c.516A>C variants were associated with reduced celiprolol area under the plasma concentration‐time curve (AUC0–∞). An alternative analysis with ABCB1 haplotypes showed that, in addition to SLCO1A2 c.516A>C, three ABCB1 haplotypes were associated with reduced celiprolol AUC0–∞. A genotype scoring system was developed based on these variants and applied to stratify the participants to low and high celiprolol exposure genotype groups. The mean AUC0–∞ of celiprolol in the low exposure genotype group was 55% of the mean AUC0–∞ in the high exposure group (p = 1.08 × 10−11). In addition, the results showed gene‐gene interactions in the effects of SLCO1A2 and ABCB1 variants on celiprolol AUC0–∞ (p

Published

2021

18. Effect of Ovar‐DRA and Ovar‐DRB1 genotype in small ruminants with haemonchosis.

Author

Estrada‐Reyes, Z. M., Tsukahara, Y., Goetsch, A. L., Gipson, T. A., Sahlu, T., Puchala, R., Wang, Z., Hart, S. P., and Mateescu, R. G.

Subjects

*RUMINANTS, *SHEEP breeds, *PARASITOLOGY, *HUMORAL immunity, *POLYMERASE chain reaction

Abstract

Summary: The effect of Ovar‐DRA and Ovar‐DRB1 genotypes on faecal egg count (FEC) was determined in sheep and goats infected with Haemonchus contortus. One hundred and forty‐three sheep from 3 different breeds (St. Croix, Katahdin and Dorper) and 150 goats from three different breeds (Spanish, Boer and Kiko) were used. Parasitological (FEC), haematological (packed cell volume) and immunological (IgA, IgG and IgM) parameters were measured. Sheep populations showed a higher FEC and humoural response than goat breeds. Genotypes were determined by high‐resolution melting assays and by conventional PCR. For Ovar‐DRA, sheep and goats carrying the AA genotype showed significant lower FEC than AG and GG genotypes. The additive effect was found to be 115.35 less eggs per gram of faeces for the A allele for goats. For Ovar‐DRB1, only in sheep, the GC genotype was associated with low FEC. The additive effect was 316.48 less eggs per gram of faeces for the G allele, and the dominance effect was 538.70 less eggs per gram of faeces. The results indicate that single nucleotide polymorphisms within Ovar‐DRA and Ovar‐DRB1 could be potential markers to be used in selection programmes for improving resistance to Haemonchus contortus infection. [ABSTRACT FROM AUTHOR]

Published

2018

19. Updates on genetics in systemic sclerosis

Author

Masataka Kuwana and Yuko Ota

Subjects

030203 arthritis & rheumatology, 0301 basic medicine, Genetics, Innate immune system, integumentary system, Immunology, Review, Biology, Acquired immune system, Pathogenesis, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Genotype-phenotype distinction, Gene expression, Expression quantitative trait loci, Pathology, Immunology and Allergy, RB1-214, skin and connective tissue diseases, Gene, Candidate Gene Analysis

Abstract

Systemic sclerosis (SSc) is a complex disease, in which an interaction of genetic and environmental factors plays an important role in its development and pathogenesis. A number of genetic studies, including candidate gene analysis and genome-wide association study, have found that the associated genetic variants are mainly localized in noncoding regions in the expression quantitative trait locus and influence corresponding gene expression. The gene variants identified as a risk for SSc susceptibility include those associated with innate immunity, adaptive immune response, and cell death, while there are only few SSc-associated genes involved in the fibrotic process or vascular homeostasis. Human leukocyte antigen class II genes are associated with SSc-related autoantibodies rather than SSc itself. Since the pathways between the associated genotype and phenotype are still poorly understood, further investigations using multi-omics technologies are necessary to characterize the complex molecular architecture of SSc, identify biomarkers useful to predict future outcomes and treatment responses, and discover effective drug targets.

Published

2021

20. Fine-mapping and candidate gene analysis for the foxglove aphid resistance gene Raso2 from wild soybean PI 366121

Author

Soon-Chun Jeong, Ki-Seung Kim, Sung-Taeg Kang, Jiyeong Jung, Ilseob Shin, Jin Kyo Jung, Jeong-Dong Lee, Ju Seok Lee, Ji-Min Kim, Bo-Keun Ha, and Sumin Park

Subjects

0106 biological sciences, Genetics, Nonsynonymous substitution, Candidate gene, fungi, food and beverages, Single-nucleotide polymorphism, General Medicine, Biology, Plant disease resistance, 01 natural sciences, symbols.namesake, Inbred strain, Mendelian inheritance, symbols, Agronomy and Crop Science, Gene, Candidate Gene Analysis, 010606 plant biology & botany, Biotechnology

Abstract

The foxglove aphid resistance gene Raso2 from PI 366121 was fine-mapped to 77 Kb region, and one candidate gene was identified. The foxglove aphid (FA: Aulacorthum solani Kaltenbach) is an important insect pest that causes serious yield losses in soybean. The FA resistance gene Raso2 from wild soybean PI 366121 was previously mapped to a 13 cM interval on soybean chromosome 7. However, fine-mapping of Raso2 was needed to improve the effectiveness of marker-assisted selection (MAS) and to eventually clone it. The objectives of this study were to fine-map Raso2 from PI 366121 using Axiom® 180 K SoyaSNP array, to confirm the resistance and inheritance of Raso2 in a different background, and to identify candidate gene(s). The 105 F4:8 recombinant inbred lines were used to fine-map the gene and to test antibiosis and antixenosis of Raso2 to FA. These efforts resulted in the mapping of Raso2 on 1 cM interval which corresponds to 77 Kb containing eight annotated genes based on the Williams 82 reference genome assembly (Wm82.a2.v1). Interestingly, all nonsynonymous substitutions were in Glyma.07g077700 which encodes the disease resistance protein containing LRR domain and expression of the gene in PI 366121 was significantly higher than that in Williams 82. In addition, distinct SNPs within Glyma.07g077700 that can distinguish PI 366121 and diverse FA-susceptible soybeans were identified. We also confirmed that Raso2 presented the resistance to FA and the Mendelian inheritance for single dominant gene in a different background. The results of this study would provide fundamental information on MAS for development of FA-resistant cultivars as well as functional study and cloning of the candidate gene in soybean.

Published

2021

21. Fine mapping and candidate gene analysis of leaf tip premature senescence and Dwarf Mutant dls-1 in Rice

Author

Hanfei Ye, Caolin Lu, Yuchun Rao, Juan Hu, Xianmei Wu, Han Lin, Sanfeng Li, Tao Lu, Jiang Hu, Yunxia Fang, Chenyang Pan, Yuexing Wang, Sheng Wang, and Jiao Ran

Subjects

0106 biological sciences, 0301 basic medicine, Genetics, Senescence, Candidate gene, Nuclear gene, Physiology, Mutant, food and beverages, Mutagenesis (molecular biology technique), Methane sulfonate, Plant Science, Biology, 01 natural sciences, 03 medical and health sciences, 030104 developmental biology, Agronomy and Crop Science, Candidate Gene Analysis, Gene, 010606 plant biology & botany

Abstract

Premature leaf senescence negatively affects rice yield and quality. Identifying premature senescence mutants and examining their gene functions are important for the genetic improvement of crops. In this study, a leaf senescence mutant dls-1 was obtained from japonica Yundao by ethyl methane sulfonate mutagenesis, which showed the phenotypes of premature leaf senescence, reduced plant height and decreased yield-associated traits including panicle length, seed setting rate, and 1000-grain weight. Biochemical analysis revealed the accumulation of reactive oxygen species in dls-1 leading to increased apoptosis rates, stomata length extension, higher water loss, and a decline in leaf silicification. Transcriptomic data showed that pathogen resistance-related genes were down-regulated in dls-1, causing increased sensitivity to bacterial-induced blight. Genetic analysis indicated that the mutant trait of dls-1 was controlled by a single recessive nuclear gene, and the gene was fine-mapped to a 159 kb region on rice chromosome 1 using map-based cloning strategy. A total of 23 open reading frames were found in the interval, and no similar phenotypic genes have been reported. However, all candidate coding genes and promoter regions were sequenced, and no mutation sites were found. RNA-seq analysis and qRT-PCR showed that the candidate gene LOC_Os01g71670, encodes a rice endo-1,3-β-glucanase, showed significantly different expression levels in dls-1 compared to the wild-type. LOC_Os01g71670 is highly homologous with GII in barley, and Gns4 and glu1 in rice, which participates in the hormone response pathway affecting plant growth and development, and also involve in the regulation of PR2 expression. Taken together with the phenotypes of dls-1, we conclude that LOC_Os01g71670 may be the candidate gene, causing the premature senescence of the leaf tip and loss of pathogen resistance.

Published

2021

22. Fine mapping and candidate gene analysis of maize defective kernel mutant dek54

Author

Wen-Qin Wang, Yilin Cai, Si-Ying Zhu, Qiu-Lan Chen, Shun Yao, Chaoxian Liu, Lian Zhou, Xiang-De Hong, Yu-Han Xiong, and Zikun Zhao

Subjects

Kernel (statistics), Mutant, Plant Science, Computational biology, Agronomy and Crop Science, Candidate Gene Analysis, Biotechnology, Mathematics

Published

2021

23. Fine mapping and candidate gene analysis of the orange petal colour gene Bnpc2 in spring rapeseed ( Brassica napus )

Author

Dezhi Du, Zeeshan Ahmed Solangi, Li Kaixiang, Yani Zhang, and Yanmei Yao

Subjects

education.field_of_study, Rapeseed, biology, fungi, Zeaxanthin epoxidase, Population, food and beverages, Locus (genetics), Plant Science, Orange (colour), chemistry.chemical_compound, chemistry, Botany, Genetics, biology.protein, Petal, education, Agronomy and Crop Science, Candidate Gene Analysis, Violaxanthin

Abstract

Petal colour is considered as an important trait and major visual signal for insect‐pollinated plants and landscaping. In previous study, we isolated and identified two genes (BnPC1 and BnPC2) that control the orange petal colour (OPC) in rapeseed. To identify the molecular markers linked to the orange petal colour, we constructed a B. napus linkage map with four newly developed simple sequence repeat (SSR) markers and nine insertion–deletion (InDel) markers using BC₅II, a near isogenic line population segregated at the BnPC2 locus. The BnPC2 gene was flanked by Indel‐3 and Indel‐20 and was found to represent a 27‐kb (3.721–3.748 Mb) region on A09 of B. napus. High‐pressure liquid chromatography analysis revealed that, compared to yellow petals, orange petals exhibit significantly increased zeaxanthin, β‐carotene and lutein contents and a relatively decreased violaxanthin content. Expression profiling confirmed that BnaA09.ZEP (zeaxanthin epoxidase) is an important candidate gene for BnPC2 and is predominantly expressed in floral tissues. Overall, our results provide a basis for understanding the molecular mechanisms underlying the orange petal colour trait in B. napus.

Published

2021

24. Linkage and association study discovered loci and candidate genes for glycinin and β-conglycinin in soybean (Glycine max L. Merr.)

Author

Hongyang Du, Shanshan Zhang, Deyue Yu, Guizhen Kan, Yujie Ma, and Haiyang Li

Subjects

0106 biological sciences, Candidate gene, Genetic Linkage, Quantitative Trait Loci, Genome-wide association study, Biology, 01 natural sciences, Inbred strain, Genetic linkage, Genetics, Storage protein, Gene, Genetic association, chemistry.chemical_classification, Seed Storage Proteins, fungi, Chromosome Mapping, food and beverages, Globulins, General Medicine, Antigens, Plant, chemistry, Soybean Proteins, Soybeans, Agronomy and Crop Science, Candidate Gene Analysis, 010606 plant biology & botany, Biotechnology

Abstract

Linkage mapping and GWAS identified 67 QTLs related to soybean glycinin, β-conglycinin and relevant traits. Polymorphisms of the candidate gene Gy1 promoter were associated with the glycinin content in soybean. The major components of storage proteins in soybean seeds are glycinin and β-conglycinin, which play important roles in determining protein nutrition and soy food processing properties. Increasing the protein content while improving the ratio of glycinin to β-conglycinin is substantially important for soybean protein improvement. To investigate the genetic mechanism of storage protein subunits, 184 recombinant inbred lines (RILs) derived from a cross of Kefeng No. 1 and Nannong 1138-2 and 211 diverse soybean cultivars were used to detect loci related to glycinin (11S), β-conglycinin (7S), the sum of glycinin and β-conglycinin (SGC), and the ratio of glycinin to β-conglycinin (RGC). Sixty-seven QTLs and 11 hot genomic regions were identified as affecting the four traits. One genetic region (q10-1) on chromosome 10 was associated with multiple traits by both linkage and association analysis. Eight genes in 11 hot genomic regions might be related to soybean protein subunit. The candidate gene analysis showed that polymorphisms in Gy1 promoters were significantly correlated with the 11S content. The QTLs and candidate genes identified in the present study allow for further understanding the genetic basis of 11S and 7S regulation and provide useful information for marker-assisted selection (MAS) in soybean quality improvement.

Published

2021

25. Characterization and Candidate Gene Analysis of the Yellow-Green Leaf Mutant ygl16 in Rice (Oryza sativa L.)

Author

Changwei Zhang, Xiaolong Zhong, Dan Du, Han Yun, Jun-Hua Liu, Linjun Cai, Xianchun Sang, and Zhen-Lin Yang

Subjects

Oryza sativa, Physiology, Mutant, Botany, Plant Science, Biology, Biochemistry, Candidate Gene Analysis, Green leaf

Published

2021

26. QTL mapping and candidate gene analysis of seed vigor-related traits during artificial aging in wheat (Triticum aestivum)

Author

Ruilian Jing, Fan Hua, Jinwen Yang, Chen Weiguo, Wenjun Zhang, Wanghui Guan, Shuguang Wang, Daizhen Sun, Huawei Shi, and Shi Yugang

Subjects

0106 biological sciences, 0301 basic medicine, Candidate gene, Molecular biology, Science, Population, Quantitative Trait Loci, Biology, Quantitative trait locus, 01 natural sciences, Article, Chromosomes, Plant, 03 medical and health sciences, Genetics, education, Triticum, education.field_of_study, Multidisciplinary, Chromosome Mapping, food and beverages, biology.organism_classification, Horticulture, 030104 developmental biology, Germination, Seedling, Seeds, Doubled haploidy, Epistasis, Medicine, Candidate Gene Analysis, 010606 plant biology & botany

Abstract

High vigor seeds have greater yield potential than those with low vigor; however, long-term storage leads to a decline in this trait. The objective of this study was to identify quantitative trait loci (QTLs) for seed vigor-related traits under artificial aging conditions using a high-density genetic linkage map of wheat (Triticum aestivum) and mine the related candidate genes. A doubled haploid population, derived from a cross between Hanxuan 10 × Lumai 14, was used as the experimental material. Six controlled-environment treatments were set up, i.e. the seeds were aged for 0, 24, 36, 48, 60, and 72 h at a high temperature (48 °C) and under high humidity (relative humidity 100%). Eight traits including seed germination percentage, germination energy, germination index, seedling length, root length, seedling weight, vigor index, and simple vigor index were measured. With the prolongation of artificial aging treatment, these traits showed a continuous downward trend and significant correlations were observed between most of them. A total of 49 additive QTLs for seed vigor-related traits were mapped onto 12 chromosomes (1B, 2D, 3A, 3B, 3D, 4A, 4D, 5A, 5B, 5D, 6D, and 7A); and each one accounted for 6.01–17.18% of the phenotypic variations. Twenty-five pairs of epistatic QTLs were detected on all chromosomes, except for 5D, 6A, and 7D, and each epistasis accounted for 7.35–26.06% of the phenotypic variations. Three additive QTL hot spots were found on chromosomes 5A, 5B, and 5D, respectively. 13 QTLs, QGEe5B, QGIe5B, QSLc5B, QSLd5B, QSLf5B, QRLd5B, QRLe5B, QRLf5B, QVId5B, QVIe5B, QVIf5B, QSVId5B, and QSVIe5B, were located in the marker interval AX-94643729 ~ AX-110529646 on 5B and the physical interval 707,412,449–710,959,479 bp. Genes including TRAESCS5B01G564900, TRAESCS5B01G564200, TRAESCS5B01G562600, TraesCS5B02G562700, TRAESCS5B01G561300, TRAESCS5B01G561400, and TRAESCS5B01G562100, located in this marker interval, were found to be involved in regulating the processes of carbohydrate and lipid metabolism, transcription, and cell division during the germination of aging seeds, thus they were viewed as candidate genes for seed viability-related traits. These findings provide the basis for the seed-based cloning and functional identification of related candidate genes for seed vigor.

Published

2020

27. Transcriptomics Integrated with Metabolomics Unveil Carotenoids Accumulation and Correlated Gene Regulation in White and Yellow-Fleshed Turnip (Brassica rapa ssp. rapa)

Author

Yanjing Ren, Rui Han, Yidong Ma, Xiaojuan Li, Changrong Deng, Mengliang Zhao, Jiang Li, Quangang Hou, Qiwen Zhong, and Dengkui Shao

Subjects

fungi, Genetics, food and beverages, Brassica rapa ssp. rapa, carotenoids accumulation, carotenoid biosynthesis pathway, candidate gene analysis, gene function validation, Genetics (clinical)

Abstract

Turnip (Brassica rapa ssp. rapa) is considered to be a highly nutritious and health-promoting vegetable crop, whose flesh color can be divided into yellow and white. It is widely accepted that yellow-fleshed turnips have higher nutritional value. However, reports about flesh color formation is lacking. Here, the white-fleshed inbred line, W21, and yellow-fleshed inbred line, W25, were profiled from the swollen root of the turnip at three developmental periods to elucidate the yellow color formation. Transcriptomics integrated with metabolomics analysis showed that the PSY gene was the key gene affecting the carotenoids formation in W25. The coding sequence of BrrPSY-W25 was 1278 bp and that of BrrPSY-W21 was 1275 bp, and BrrPSY was more highly expressed in swollen roots in W25 than in W21. Transient transgenic tobacco leaf over-expressing BrrPSY-W and BrrPSY-Y showed higher transcript levels and carotenoids contents. Results revealed that yellow turnip formation is due to high expression of the PSY gene rather than mutations in the PSY gene, indicating that a post-transcriptional regulatory mechanism may affect carotenoids formation. Results obtained in this study will be helpful for explaining the carotenoids accumulation of turnips.

Published

2022

28. Interleukin-1 Receptor Antagonist Polymorphism and Birth Timing.

Author

Gillespie, Shannon L., Neal, Jeremy L., Christian, Lisa M., Szalacha, Laura A., Mccarthy, Donna O., and Salsberry, Pamela J.

Subjects

*RISK factors in premature labor, *PREMATURE infants, *ALLELES, *BLACK people, *CELL receptors, *CHI-squared test, *CHILDBIRTH, *CONCEPTUAL structures, *CONFIDENCE intervals, *CYTOKINES, *FISHER exact test, *GENETIC polymorphisms, *INTERLEUKIN-1, *INTERVIEWING, *LONGITUDINAL method, *RACE, *REGRESSION analysis, *RESEARCH funding, *STATISTICS, *T-test (Statistics), *TIME, *DATA analysis, *DATA analysis software, *DESCRIPTIVE statistics, *NUCLEIC acid amplification techniques, *GENOTYPES, *PREVENTION

Abstract

Background: Timing of birth is a major determinant of newborn health. African American women are at increased risk for early birth, particularly via the inflammatory pathway. Variants of the IL1RN gene, which encode the interleukin-1 receptor antagonist (IL-1Ra) protein, are implicated in early birth. The biological pathways linking these variables remain unclear. Evidence also suggests that inflammatory pathways differ by race; however, studies among African American women are lacking. Objectives: We assessed whether an IL1RN variant was associated with timing of birth among African American women and whether this relationship was mediated by lower anti-inflammatory IL-1Ra production or related to a decrease in inhibition of proinflammatory IL-1β production. Methods: A candidate gene study using a prospective cohort design was used. We collected blood samples at 28-32 weeks of gestation among African American women experiencing an uncomplicated pregnancy (N = 89). IL1RN single-nucleotide polymorphism (SNP) rs2637988 was genotyped, and lipopolysaccharide-stimulated IL-1Ra and IL-1β production was quantified. Medical record review determined timing of birth. Results: Women with GG genotype gave birth earlier than women with AA/AG genotypes (b* =.21, p = .04). There was no indirect effect of IL1RN SNP rs2637988 allele status on timing of birth through IL-1Ra production, as evidenced by a nonsignificant product of coefficients in mediational analyses (ab = .006, 95% CI [-0.05, 0.13]). Women with GG genotype showed less inhibition of IL-1β production for a unit positive difference in IL-1Ra production than women with AA/AG genotypes (b* = .93, p = .03). Greater IL-1β production at 28-32 weeks of pregnancy was marginally associated with earlier birth (b* =.21, p = .05). Discussion: Women with GG genotype may be at risk for earlier birth because of diminished IL-1β inhibition, allowing for initiation of a robust inflammatory response upon even mild immune challenge. Study of inflammatory contributions to early birth among African American women may be key to identifying potential prognostic markers of risk and targeted preventive interventions. [ABSTRACT FROM AUTHOR]

Published

2017

29. Genome-wide association study for carcass traits, fatty acid composition, chemical composition, sugar, and the effects of related candidate genes in Japanese Black cattle.

Author

Sasago, Nanae, Abe, Tsuyoshi, Sakuma, Hironori, Kojima, Takatoshi, and Uemoto, Yoshinobu

Subjects

*CATTLE genetics, *PHYSIOLOGICAL effects of fatty acids, *SINGLE nucleotide polymorphisms, *ALLELES, *MEAT quality

Abstract

We performed a genome-wide association study (GWAS) and candidate gene analysis to: (i) evaluate the effectiveness of the GWAS in our small population by performing GWAS for carcass weight (CW) and fatty acid composition; (ii) detect novel candidate regions affecting non-CW carcass traits, chemical composition and sugar; and (iii) evaluate the association of the candidate genes previously detected in CW and fatty acid composition with other economically important traits. A total of 574 Japanese Black cattle and 40 657 Single nucleotide polymorphisms were used. In addition, candidate gene analyses were performed to evaluate the association of three CW-related genes and two fatty acid-related genes with carcass traits, fatty acid composition, chemical composition and sugar. The significant regions with the candidate genes were detected for CW and fatty acid composition, and these results showed that a significant region would be detectable despite the small sample size. The novel candidate regions were detected on BTA23 for crude protein and on BTA19 for fructose. CW-related genes associated with the rib-eye area and fatty acid composition were identified, and fatty acid-related genes had no relationship with other traits. Moreover, the favorable allele of CW-related genes had an unfavorable effect on fatty acid composition. [ABSTRACT FROM AUTHOR]

Published

2017

30. Fine mapping and candidate gene analysis of qRN5a, a novel QTL promoting root number in rice under low potassium

Author

Shihua Cheng, Galal Bakr Anis, Anowerul Islam, Weixun Wu, Xihong Shen, Liyong Cao, Yingxin Zhang, Ling Liu, Workie Anley, Mohammad Hasanuzzaman Rani, and Qinqin Yang

Subjects

0106 biological sciences, Genetics, Nonsynonymous substitution, Candidate gene, education.field_of_study, Population, General Medicine, Quantitative trait locus, Biology, 01 natural sciences, Genetic linkage, Coding region, education, Agronomy and Crop Science, Candidate Gene Analysis, Gene, 010606 plant biology & botany, Biotechnology

Abstract

KEY MESSAGE: qRN5a, a novel QTL for increasing root number under low K in rice, was fine mapped to a 48.8-kb region on chromosome 5, and LOC_Os05g27980 is the most likely candidate gene. Potassium (K) is a mineral nutrient essential for plant growth and development, but the molecular mechanism for low-K (LK) tolerance in rice remains poorly understood. In our previous study, the quantitative trait locus (QTL) qRN5a for root number (RN) under LK was identified in the chromosome segment substitution line CSSL35 carrying segments from XieqingzaoB in the genetic background of Zhonghui9308 (ZH9308). CSSL35 developed more roots than ZH9308 under LK at the seedling stage, and qRN5a was initially located within a 1,023-kb genomic region. In this study, to understand the molecular basis of qRN5a, a large F2:3 (BC5F2:3) population obtained from crossing CSSL35 and ZH9308 was constructed for fine mapping. High-resolution linkage analysis narrowed down qRN5a to a 48.8-kb interval flanked by markers A99 and A139. Seven putative candidate genes were annotated in the delimited region, and three genes (Os05g0346700, LOC_Os05g27980, and LOC_Os05g28000) had nonsynonymous single-nucleotide polymorphisms in the coding sequence between the two parents. Expression analysis suggests that LOC_Os05g27980, which encodes a LATERAL ORGAN BOUNDARIES domain-containing protein, is a positive regulator of RN under LK and is the most likely candidate gene for qRN5a. Moreover, we found that qRN5a promotes expression of OsIAA23 and represses OsHAK5 expression in root tissues to promote root initiation in CSSL35 under LK conditions. Additional investigations on OsHAK5 in rice are needed to elucidate the basis of changing root architecture under different K+ concentrations. qRN5a is useful for marker-assisted selection to develop an ideotype with improved root architecture in rice under K deficiency.

Published

2020

31. Identification of a Major QTL and Candidate Gene Analysis of Salt Tolerance at the Bud Burst Stage in Rice (Oryza sativa L.) Using QTL-Seq and RNA-Seq

Author

Hongwei Zhao, Yongcai Lai, Jingguo Wang, Luomiao Yang, Detang Zou, Hongliang Zheng, Jiaming Li, Jian Sun, Lei Lei, Hualong Liu, Yanli Bi, and Xianwei Li

Subjects

0106 biological sciences, 0301 basic medicine, Candidate gene, Sequence analysis, Population, Soil Science, RNA-Seq, Plant Science, Quantitative trait locus, Biology, lcsh:Plant culture, 01 natural sciences, 03 medical and health sciences, Salt tolerance, lcsh:SB1-1110, education, Genetics, Oryza sativa L, education.field_of_study, Oryza sativa, food and beverages, Marker-assisted selection, 030104 developmental biology, QTL-seq, Original Article, RNA-seq, Agronomy and Crop Science, Candidate Gene Analysis, 010606 plant biology & botany

Abstract

Background Salt stress is one of the main abiotic stresses that limits rice production worldwide. Rice salt tolerance at the bud burst stage directly affects the seedling survival rate and the final yield in the direct seeding cultivation model. However, the reports on quantitative trait locus (QTL) mapping and map-based cloning for salt tolerance at the bud burst stage are limited. Results Here, an F2:3 population derived from a cross between IR36 (salt-sensitive) and Weiguo (salt-tolerant) was used to identify salt-tolerant QTL interval at the bud burst stage using a whole-genome sequencing-based QTL-seq containing 40 extreme salt-tolerant and 40 extreme salt-sensitive individuals. A major QTL, qRSL7, related to relative shoot length (RSL) was detected on chromosome 7 using ΔSNP index algorithms and Euclidean Distance (ED) algorithms. According to single nucleotide polymorphisms (SNPs) between the parents, 25 Kompetitive allele-specific PCR (KASP) markers were developed near qRSL7, and regional QTL mapping was performed using 199 individuals from the F2:3 population. We then confirmed and narrowed down qRSL7 to a 222 kb genome interval. Additionally, RNA sequencing (RNA-seq) was performed for IR36 and Weiguo at 36 h after salt stress and control condition at the bud burst stage, and 5 differentially expressed genes (DEGs) were detected in the candidate region. The qRT-PCR results showed the same expression patterns as the RNA-seq data. Furthermore, sequence analysis revealed a 1 bp Indel difference in Os07g0569700 (OsSAP16) between IR36 and Weiguo. OsSAP16 encodes a stress-associated protein whose expression is increased under drought stress. Conclusion These results indicate that OsSAP16 was the candidate gene of qRSL7. The results is useful for gene cloning of qRSL7 and for improving the salt tolerance of rice varieties by marker assisted selection (MAS).

Published

2020

32. QTL mapping and candidate gene analysis of cadmium accumulation in polished rice by genome-wide association study

Author

Yongchao Li, Sanxiong Liu, Xiaoxiang Li, Min Jun, Yonghong Duan, Wenqiang Liu, Xiong Haibo, Xiaowu Pan, Dong Zheng, and Yu Yaying

Subjects

0106 biological sciences, 0301 basic medicine, Agricultural genetics, Candidate gene, Linkage disequilibrium, Quantitative Trait Loci, lcsh:Medicine, Genome-wide association study, Biology, Quantitative trait locus, Quantitative trait, 01 natural sciences, Polymorphism, Single Nucleotide, Article, Plant breeding, Linkage Disequilibrium, 03 medical and health sciences, Quantitative Trait, Heritable, SNP, lcsh:Science, Gene, Phylogeny, Genetic association study, Genetics, Multidisciplinary, lcsh:R, Chromosome Mapping, High-Throughput Nucleotide Sequencing, food and beverages, Oryza, 030104 developmental biology, lcsh:Q, Candidate Gene Analysis, 010606 plant biology & botany, Cadmium, Genome-Wide Association Study

Abstract

Cadmium (Cd) accumulation in rice is a serious threat to food safety and human health. Breeding rice varieties with low Cd accumulation is one of the most effective approaches to reducing health risks from Cd-polluted rice. However, the genetic basis of Cd accumulation in grains, especially in indica rice varieties, has not been fully elucidated. The evaluation of Cd-accumulation capacity was conducted among 338 diverse rice accessions grown in Cd-contaminated soils with different Cd contents. Thirteen rice lines with relatively low Cd accumulation, including six indica rice lines, were identified. Then, 35 QTLs significantly associated with Cd accumulation were identified through sequencing-based SNP discovery and a genome-wide association study (GWAS) in the two experimental years, and only qCd8-1 was detected in both years. Among of them, nine QTLs were co-localized with identified genes or QTLs. A novel QTL, qCd1-3, with the lowest P value was selected for further LD decay analysis and candidate gene prediction. We found differential expression of OsABCB24 between high-Cd-accumulative and low-Cd-accumulative accessions, suggesting it may be a candidate gene for qCd1-3 associated with low Cd accumulation. These results may be helpful for further exploiting novel functional genes related to Cd accumulation and developing rice variety with low Cd accumulation through marker-assisted breeding.

Published

2020

33. Identification and characterization of the stunted sterile (ss) mutant in rice

Author

Gileung Lee, Hyekyung Son, Backki Kim, Yunjoo Lee, Su Jang, and Hee-Jong Koh

Subjects

0106 biological sciences, 0301 basic medicine, Sequence analysis, Mutant, Flowers, Biology, Genes, Plant, medicine.disease_cause, 01 natural sciences, Biochemistry, Genetic analysis, 03 medical and health sciences, Gene Expression Regulation, Plant, Republic of Korea, Genetics, medicine, Coding region, Molecular Biology, Gene, Cell Proliferation, Mutation, Plant Stems, Whole Genome Sequencing, Gene Expression Profiling, food and beverages, Methylnitrosourea, Oryza, Plant Leaves, Phenotype, 030104 developmental biology, Pollen, Candidate Gene Analysis, 010606 plant biology & botany, SANT domain

Abstract

Proper organ development is pivotal for normal rice growth and production. Many genes are involved in this process, and these genes provide a basis for rice breeding. To identify a novel mutation causing developmental defects in rice. The phenotype of a rice mutant, stunted sterile (ss), identified from the japonica rice cultivar Samkwang treated with N-methyl-N-nitrosourea, was characterized, including anatomical and pollen activity analyses. A genetic analysis and fine mapping were performed to identify a candidate locus, followed by a sequence analysis to determine the causal mutation for the phenotype. Compared with wild-type plants, the mutant exhibited a 34% reduction in height, 46% reduction in flag leaf width, and complete panicle sterility. Cell proliferation in the leaf and pollen viability were significantly inhibited in the mutant. The mutant phenotypes were controlled by a single recessive gene that was fine-mapped to an 84 kb region between two SNP markers on the short arm of chromosome 5. A candidate gene analysis determined that the mutant carries an 11 bp insertion in the coding region of LOC_Os05g03550, which encodes a protein containing two SANT domains, resulting in a premature termination codon before the conserved domain. We identified a novel rice gene, Stunted sterile, involved in the regulation of various developmental processes. Our findings improve our understanding of the role of chromatin remodeling in organ development and have implications for breeding owing to the broad effects of the gene on plant growth.

Published

2020

34. Gene mapping and candidate gene analysis of aberrant-floral spikelet 1 (afs1) in rice (Oryza sativa L.)

Author

Guo-ling Yu, Jing You, Huan Chen, He Guanghua, Yun-Feng Li, Yinghua Ling, Yu-jie Tu, Yi-dan Li, Yidan Li, Wanyue Yao, Yi Zhang, and Ting Zhang

Subjects

0106 biological sciences, Sequence analysis, Agriculture (General), Mutant, Plant Science, Biology, spikelet, 01 natural sciences, Biochemistry, aberrant-floral spikelet 1, S1-972, 03 medical and health sciences, Food Animals, Gene mapping, Allele, Indel, Gene, 030304 developmental biology, Genetics, 0303 health sciences, Oryza sativa, Ecology, rice, food and beverages, gene mapping, yield, Animal Science and Zoology, Agronomy and Crop Science, Candidate Gene Analysis, 010606 plant biology & botany, Food Science

Abstract

The spikelet is a unique inflorescence structure in grasses. However, the molecular mechanism that regulates its development remains unclear, and we therefore characterize a spikelet mutant of rice (Oryza sativa L.), aberrant-floral spikelet 1 (afs1), which was derived from treatment of Xinong 1B with ethyl methanesulfonate. In the afs1 mutant, the spikelet developed an additional lemma-like organ alongside the other normally developed floral organs, and the paleae were degenerated to differing degrees with or without normally developed inner floral organs. Genetic analysis revealed that the afs1 phenotype was controlled by a single recessive gene. The AFS1 gene was mapped between the insertion/deletion (InDel) marker Indel19 and the simple sequence repeat marker RM16893, with a physical distance of 128.5 kb on chromosome 4. Using sequence analysis, we identified the deletion of a 5-bp fragment and a transversion from G to A within LOC_Os04g32510/LAX2, which caused early termination of translation in the afs1 mutant. These findings suggest that AFS1 may be a new allele of LAX2, and is involved in the development of floral organs by regulating the expression of genes related to their development. The above results provide a new view on the function of LAX2, which may also regulate the development of spikelets.

Published

2020

35. Genetic Polymorphisms ofARMC4, LRP4andBCL2Genes are Associated with Blood Pressure Traits and Hypertension in Korean Population

Author

Tae-Eun Jeon, Hyun-Soek Jin, Sangjung Park, Yong-Seob Kim, and Hye-Jeong Park

Subjects

Genetics, Blood pressure, business.industry, Korean population, Medicine, General Medicine, business, Candidate Gene Analysis, Gene

Published

2020

36. Pharmacogenetic investigation of efficacy response to mepolizumab in eosinophilic granulomatosis with polyangiitis

Author

Laura R. Parham, Michael E. Wechsler, Benjamin A. Raby, Steven W. Yancey, Lynn D. Condreay, Xiaoyan A. Qu, Soumitra Ghosh, and Jonathan Steinfeld

Subjects

0301 basic medicine, Oncology, Adult, Male, medicine.medical_specialty, Candidate gene, Prednisolone, Immunology, Genome-wide association study, Genes and Disease, Churg-Strauss Syndrome, Antibodies, Monoclonal, Humanized, 03 medical and health sciences, 0302 clinical medicine, Rheumatology, Recurrence, Internal medicine, Eosinophilic, medicine, Immunology and Allergy, Churg–Strauss syndrome, Humans, 030212 general & internal medicine, Glucocorticoids, Genetic studies, Mepolizumab, Aged, business.industry, Remission Induction, Middle Aged, medicine.disease, Complementary therapies, Eosinophils, 030104 developmental biology, Female, Interleukin-5, business, Granulomatosis with polyangiitis, Candidate Gene Analysis, Pharmacogenetics, Glucocorticoid, medicine.drug, Eosinophilic granulomatosis

Abstract

Treatment of patients with the rare disease eosinophilic granulomatosis with polyangiitis (EGPA) with mepolizumab, a monoclonal antibody to interleukin-5 (IL-5) that reduces blood eosinophil counts, as an add-on therapy to glucocorticoid treatment, results in more accrued weeks in remission, reductions in glucocorticoid use and reductions in relapse rate. However, treatment response varies across a continuum. Therefore, to investigate if large genetic effects could identify responders, the impact of genetic variants on efficacy in EGPA subjects taking mepolizumab and glucocorticoids was assessed in this post hoc study. Using linear regression and a negative binomial model, genetic variant association with three endpoints (accrued duration of remission, average oral glucocorticoid dose, and frequency of relapse) was tested in 61 EGPA subjects dosed with mepolizumab from MIRRA, a phase 3 trial. Candidate gene and genome-wide approaches were used. The candidate gene analysis was designed to investigate drug target effects with eight gene regions selected that were focused on the intersection of the glucocorticoid response (steroidal response) and IL-5 response mechanisms and recognizing potential overlap between EGPA and severe eosinophilic asthma diseases for which mepolizumab is used. The sample size was insufficient to enable testing of rare variants for effects. No genetic variant from either the candidate gene analysis or the GWAS associated with any endpoint. Thresholds to declare significance were p

Published

2020

37. Gene mapping and candidate gene analysis of multi‐grains 1 ( Mg1 ) in rice

Author

Guanghua He, Yidan Li, Jing You, Yunfeng Li, Yao Hesheng, Yinghua Ling, Li Ye, Ting Zhang, Yi Zhang, Yujie Tu, Xiao-Qin Zeng, Guoling Yu, and Wanyue Yao

Subjects

Gene mapping, Computational biology, Biology, Agronomy and Crop Science, Candidate Gene Analysis

Published

2020

38. Fine mapping and candidate gene analysis of a seed glucosinolate content QTL, qGSL-C2, in rapeseed (Brassica napus L.)

Author

Dengfeng Hong, Liyong Yang, Xianming Zhou, Min Yan, Qiang Xin, Pengfei Wang, Ying Liu, Hao Wang, and Guangsheng Yang

Subjects

0106 biological sciences, Candidate gene, Rapeseed, Sequence analysis, Glucosinolates, Quantitative Trait Loci, Population, Haploidy, Quantitative trait locus, Biology, 01 natural sciences, Evolution, Molecular, Genetics, Allele, education, Alleles, Genetic Association Studies, Phylogeny, Histone Acetyltransferases, education.field_of_study, Arabidopsis Proteins, Brassica napus, Brassica rapa, Chromosome Mapping, food and beverages, General Medicine, Plant Breeding, Phenotype, Seeds, Doubled haploidy, Agronomy and Crop Science, Candidate Gene Analysis, Transcription Factors, 010606 plant biology & botany, Biotechnology

Abstract

QTL mapping and candidate gene analysis indicate that allelic variations in BnaC2.MYB28 resulted from homeologous exchange and determine difference in seed glucosinolate content. A low seed glucosinolate content has long been an important breeding objective in rapeseed improvement. However, the molecular mechanisms underlying seed GSL content variations remain to be elucidated in allotetraploid Brassica napus. Here, we developed a double haploid population from a cross between two B. napus accessions that possess relatively low, but significantly different seed GSL contents and identified a major QTL, qGSL-C2, on chromosome C02 that explains 30.88-72.87% of the phenotypic variation observed in five environments. Using near-isogenic lines, we further delimited qGSL-C2 to a physical region of 49 kb on the B. rapa chromosome A02 which is highly homologous to the target C02 interval. Among five candidate genes, BnaC2.MYB28, a homologue of the Arabidopsis MYB28 encoding a putative R2R3-MYB-type transcription factor functioning in aliphatic methionine-derived GSL synthesis, was most likely to be the target gene underlying the QTL. Sequence analysis revealed multiple insertion/deletion and SNP variations in the genomic region between the alleles of the NILs. Furthermore, the allelic variations in BnaC2.MYB28 in the natural B. napus population were significantly associated with seed GSL content. Remarkably, the phylogenetic analysis and sequence comparison suggested that while the BnaC2.MYB28 allele from the parental line G120 was inherited from B. oleracea BolC2.MYB28, its counterpart from the other parent, 9172, most likely evolved from B. rapa BraA2.MYB28 via possible homeologous exchange. Our study promotes greater understanding of the molecular regulation of seed GSL content and provides useful molecular markers for seed GSL improvement in B. napus.

Published

2019

39. Gene mapping and candidate gene analysis of multi-floret spikelet 3 (mfs3) in rice (Oryza sativa L.)

Author

Xiao-Qin Zeng, Jun Tang, Hao Zheng, He Guanghua, Hong-Lei Wang, Huan Chen, Yinghua Ling, Hui Zhuang, Jun Zhang, Yun-Feng Li, and Yan Li

Subjects

0106 biological sciences, Candidate gene, multi-floret spikelet, Agriculture (General), Mutant, Plant Science, rice (Oryza sativa), Biology, 01 natural sciences, Biochemistry, Genetic analysis, S1-972, 03 medical and health sciences, Food Animals, Gene mapping, Gene, 030304 developmental biology, Genetics, Meristem determinacy, 0303 health sciences, Oryza sativa, Ecology, food and beverages, candidate gene, gene mapping, palea degeneration, Animal Science and Zoology, Agronomy and Crop Science, Candidate Gene Analysis, 010606 plant biology & botany, Food Science

Abstract

Rice (Oryza sativa L.) is one of the most important food crops worldwide and a model monocot plant for gene function analysis, so it is an ideal system for studying flower development. This study reports a mutant, named multi-floret spikelet 3 (mfs3), which is related to the spikelet development in rice and derived from the ethylmethane sulfonate (EMS)-treated rice cultivar XIDA 1B. In mfs3, the main body of palea (bop) was degenerated severely and only glume-like marginal regions of palea (mrp) remained, while other floral organs developed normally, indicating that the palea identity was seriously influenced by the mutation. It was also observed that the number of floral organs was increased in some spikelets, including 2 lemmas, 4 mrp, 4 lodicules, 8–10 stamens, and 2 pistils, which meant that the spikelet determinacy was lost to some degree in mfs3. Furthermore, genetic analysis demonstrated that the mfs3 trait was controlled by a single recessive gene. Using 426 F2 mutants derived from the cross between sterile line 56S and mfs3, the MULTI-FLORET SPIKELET 3 (MFS3) gene was mapped between the molecular markers RM19347 and RM19352 on Chr.6, with a physical distance of 106.3 kb. Sequencing of candidate genes revealed that an 83-bp fragment loss and a base substitution occurred in the LOC_Os06g04540 gene in the mutant, confirming preliminarily that the LOC_Os06g04540 gene was the MFS3 candidate gene. Subsequent qPCR analysis showed that the mutation caused the down-regulation of OsMADS1 and FON1 genes, and the up-regulation of OsIDS1 and SNB genes, which are all involved in the regulation of spikelet development. The MFS3 mutation also significantly reduced the transcription of the REP gene, which is involved in palea development. These results indicated that the MFS3 gene might be involved in the spikelet meristem determinacy and palea identity by regulating the expression of these related genes.

Published

2019

40. Novel Quantitative Trait Loci for Grain Cadmium Content Identified in Hard White Spring Wheat

Author

Junli Zhang, Rui Wang, Ling Qiao, Natalie Klassen, Jianli Chen, Justin Wheeler, Meng Su, Kyle Isham, Weidong Zhao, and Jun Zheng

Subjects

Molecular breeding, Genetics, education.field_of_study, Candidate gene, cadmium, Population, Plant culture, food and beverages, Plant Science, Quantitative trait locus, Biology, SB1-1110, White (mutation), spring wheat, doubled haploid population, quantitative trait locus, Doubled haploidy, education, grain, Candidate Gene Analysis, Gene, Original Research

Abstract

Cadmium (Cd) is a heavy metal that can cause a variety of adverse effects on human health, including cancer. Wheat comprises approximately 20% of the human diet worldwide; therefore, reducing the concentrations of Cd in wheat grain will have significant impacts on the intake of Cd in food products. The tests for measuring the Cd content in grain are costly, and the content is affected significantly by soil pH. To facilitate breeding for low Cd content, this study sought to identify quantitative trait loci (QTL) and associated molecular markers that can be used in molecular breeding. One spring wheat population of 181 doubled haploid lines (DHLs), which was derived from a cross between two hard white spring wheat cultivars “UI Platinum” (UIP) and “LCS Star” (LCS), was assessed for the Cd content in grain in multiple field trials in Southeast Idaho, United States. Three major QTL regions, namely, QCd.uia2-5B, QCd.uia2-7B, and QCd.uia2-7D, were identified on chromosomes 5B, 7B, and 7D, respectively. All genes in these three QTL regions were identified from the NCBI database. However, three genes related to the uptake and transport of Cd were used in the candidate gene analysis. The sequences of TraesCS5B02G388000 (TaHMA3) in the QCd.uia2-5B region and TraesCS7B02G320900 (TaHMA2) and TraesCS7B02G322900 (TaMSRMK3) in the QCd.uia2-7B region were compared between UIP and LCS. TaHMA2 on 7B is proposed for the first time as a candidate gene for grain Cd content in wheat. A KASP marker associated with this gene was developed and it will be further validated in near-isogenic lines via a gene-editing system in future studies.

Published

2021

41. A Tiered Genetic Screening Strategy for the Molecular Diagnosis of Intellectual Disability in Chinese Patients

Author

Zhifeng Wu, Limeng Dai, Xingying Guan, Hong Guo, Danyan Zhang, Yun Bai, Mingfu Ma, Yuping Zhang, and Lianbing Li

Subjects

chromosomal microarray (CMA), Pediatrics, medicine.medical_specialty, Microarray, business.industry, QH426-470, medicine.disease, developmental delays (DD), whole exome sequencing (WES), copy number variation (CNV), Cohort, Intellectual disability, Genetics, medicine, Etiology, Molecular Medicine, Multiplex, Multiplex ligation-dependent probe amplification, intellectual disability (ID), business, Candidate Gene Analysis, Genetics (clinical), Exome sequencing, Original Research

Abstract

Objective: Intellectual disability (ID) is one of the most common developmental disabilities. To identify the genetic etiology of IDs in Chongqing, we conducted a multistage study in Chinese Han patients.Methods: We collected the clinical and etiological data of 1665 ID patients, including 1,604 from the disabled children evaluation center and 61 from the pediatric rehabilitation unit. Routine genetic screening results were obtained, including karyotype and candidate gene analysis. Then 105 idiopathic cases with syndromic and severe ID/developmental delay (DD) were selected and tested by chromosomal microarray (CMA) and whole exome sequencing (WES) sequentially. The pathogenicity of the CNVs and SNVs were evaluated according to ACMG guidelines.Results: Molecular diagnosis was made by routine genetic screening in 216 patients, including 196 chromosomal syndromes. Among the 105 idiopathic patients, 49 patients with pathogenic/likely pathogenic CNVs and 21 patients with VUS were identified by CMA. Twenty-six pathogenic CNVs underlying well-known syndromic cases, such as Williams-Beuren syndrome, were confirmed by multiplex ligation-dependent probe amplification (MLPA). Nine novel mutations were identified by WES in thirty-fix CNV-negative ID cases.Conclusions: The study illustrated the genetic aberrations distribution of a large ID cohort in Chongqing. Compared with conventional or single methods, a tiered high-throughput diagnostic strategy was developed to greatly improve the diagnostic yields and extend the variation spectrum for idiopathic syndromic ID cases.

Published

2021

42. Identification and Pyramid of QTLs Based on Rice Short-wide Grain CSSL-Z414, SSSL, DSSL and Candidate Gene Analysis of qGL11 and qGW5

Author

Miaomiao Li, Kai Zhou, He Guanghua, Ling Yinghua, Jinjin Yu, Juan Li, Guangyi Xu, Yang Zhenglin, Siqian Xiang, Hongxia Yang, Qiuli Zhang, Zhao Fangming, Keli Deng, and Ruxiang Li

Subjects

Pyramid, Identification (biology), Computational biology, Biology, Candidate Gene Analysis

Abstract

BackgroundMost of rice agronomic traits as grain length etc. are complex traits controlled by multiple genes. Chromosome segment substitution lines (CSSLs) are ideal materials for dissecting and studying of these complex traits. ResultsA rice short-wide grain CSSL Z414 was identified among progeny of the recipient parent Xihui 18 (an indica restorer line) and the donor parent Huhan 3 (a japonica cultivar). Z414 carried 4 substitution segments (average length was 3.04 Mb), and displayed shorter panicle length and less number of primary branches, shorter, wider and larger grain, higher brown rice rate and chalkiness degree when compared with Xihui 18. Then, 9 quantitative trait loci (QTLs) for associated traits were identified using the secondary F2 population from Xihui 18 / Z414. Among them, 6 QTLs (qPL3, qGW5, qGL11, qRLW5, qRLW11, qGWT5) could be verified by corresponding single segment substitution lines (SSSLs, S1-S6). In addition, 4 QTLs (qGL3, qGL5, qCD3 and qCD5) were detected by S1 and S5, which was not detected by the F2 population. Thus, the grain length of Z414 was controlled by qGL11, qGL3 and qGL5, and the grain width of Z414 was answered by qGW5. Then by substitution mapping, qGL11 and qGW5 were delimited within the estimated substitution length of 1.42 and 1.14 Mb on chromosomes 11 and 5, and 4 and 2 candidate genes were found respectively for qGL11 and qGW5 by sequencing. However, only two had expression differences by qRT-PCR analysis. Finally, Analysis of QTL epistatic effects revealed that pyramid of qGL3 (a= 0.22) and qGL11 (a=-0.19) caused grain length of double segment substitution line (DSSL, D2) shorter than that of S5 (qGL11).ConclusionsWe developed a rice short –wide grain CSSL with 4 substitution segments from Huhan 3 based on the genetic backgrounds of Xihui 18. The grain width of Z414 was controlled by qGW5, and GS5 should be the candidate gene for qGW5 by sequencing and qRT-PCR analysis. The grain length of Z414 was controlled by qGL11, qGL3, and qGL5, and CycT1;3 should be the best candidate gene of qGL11, whose specific function of regulating grain length was still unknown, and qGL11 is epistatic to qGL3.

Published

2021

43. An Association Study of Germline Variants in Bladder Cancer-Related Genes with the Prognosis of Non-Muscle Invasive Bladder Cancer.

Author

Hof JP, Vermeulen SH, van der Heijden AG, Verhaegh GW, Dyrskjøt L, Catto JWF, Mengual L, Bryan RT, Fleshner NE, Kiemeney LALM, and Galesloot TE

Abstract

Background: Various germline genetic variants are associated with the prognosis of non-muscle invasive bladder cancer (NMIBC). Germline variants in genes frequently somatically mutated in bladder cancer have not been studied thoroughly in relation to risk of recurrence or progression in NMIBC., Objective: To identify germline DNA variants in bladder carcinogenesis-related genes associated with recurrence or progression in NMIBC., Methods: We analysed associations between single-nucleotide polymorphisms (SNPs) and NMIBC recurrence and progression using data from the Nijmegen Bladder Cancer Study (NBCS, 1,443 patients). We included 5,053 SNPs within 46 genes known to have mutation, overexpression or amplification in bladder cancer. We included all recurrences in the statistical analysis and performed both single variant analysis and gene-based analysis. SNPs and genes that showed significant or suggestive association (false discovery rate P value < 20%) were followed-up in independent cohorts for replication analysis, through eQTL analysis and tests for association of tumour expression levels with NMIBC recurrence and progression., Results: Single variant analysis showed no statistically significant associations with recurrence or progression. In gene-based analysis, the aggregate effect of the 25 SNPs in the Cyclin D1 gene ( CCND1 ) was statistically significantly associated with NMIBC recurrence (P unadj  = 0.001, P FDR  = 0.046), but not with progression (P unadj  = 0.17, P FDR  = 0.54). Validation analysis in independent cohorts did not confirm the association of CCND1 with NMIBC recurrence., Conclusions: We could not identify reproducible associations between common germline variants in bladder carcinogenesis-related genes and NMIBC recurrence or progression., Competing Interests: Jasper P. Hof J. Hof has no conflict of interest to report. Sita H. Vermeulen S. Vermeulen has no conflict of interest to report. Antoine G. van der Heijden Consultant: MSD, Astellas, MerckPfizer, MML Honoraria: MerckPfizer, Astellas Gerald W. Verhaegh G. Verhaegh has no conflict of interest to report. Lars Dyrskjøt Grants: C2i genomics, Natera, Photocure, Ferring Consultant: Ferring Honoraria: Roche L. Dyrskjøt is an Editorial Board member of this journal, but was not involved in the peer-review process nor had access to any information regarding its peer-review. James W.F. Catto Grants: Roche Consultant or advisory board: Astra Zeneca, BMS, Gilead, QED Therapeutics, Roche, Ferring, Steba biotech, UroGen, Janssen, Photocure Honoraria: BMS, Astra Zeneca, Roche Board member: Fight Bladder Cancer UK J. Catto is an Editorial Board member of this journal, but was not involved in the peer-review process nor had access to any information regarding its peer-review. Lourdes Mengual Honoraria: Fundación Investigación Urología (AEU) Receipt of material or service: Nucleix Richard T. Bryan Funding: Cancer Research UK Grants: Urogen Pharma, QED Therapeutics, Janssen Royalties: Nonacus Limited Board member: The Lichfield Science and Engineering Society Trustee: Action Bladder Cancer UK Neil E. Fleshner Grants: Janssen, Astellas, Bayer, Sanofi, Nucleix, Progenix, SpectraCure AB, Bavarian Nordic Consultant: Amgen, Janssen, Astellas, Bayer, Sanofi, Abbvie, Ferring Board member: Verity Pharmaceuticals, POINT Biopharma Stock: POINT Biopharma, Verity Pharamceuticals Lambertus A.L.M. Kiemeney L.A.L.M. Kiemeney is an Editorial Board member of this journal, but was not involved in the peer-review process nor had access to any information regarding its peer-review. Tessel E. Galesloot Tessel E. Galesloot has no conflict of interest to report., (© 2023 – The authors. Published by IOS Press.)

Published

2023

44. 水稻黄叶突变体 yl 的遗传分析与基因定位.

Author

蒋悦, 孙娟, 韩思迪, 范磊, 许凯文, 江玲, and 王春明

Abstract

[Objectives] Leaf, a crucial organ for photosyhthesis, provides the basis of crop yield formation. The leaf color mutants can be used not only as a trait marker in breeding, but also as one of the prerequisites in chloroplast development and cultivation of new germplasms with higher photosynthetic efficiency. [Methods] A yellow leaf mutant, named as yl, was isolated from the progeny of 60Co-γ-rays treated indica cultivar'9311'.The gene was isolated using an F2 mapping population derived from the cross of the yl mutant and'Ningjing 4'. [Results] The yl mutant exhibited a stable yellow leaf phenotype during the seedling stage. As compared with the wild-type, the content of chlorophyll a, chlorophyll b and carotenoid reduced in yl leaves. The yl mutant showed less grain number per panicle, less seed setting rate and fewer 1 000-grain weight. The yellow leaf phenotype of the yl mutant was caused by a single recessive gene located in a 14.5 kb region on chromosome 9 containing three ORFs. The yl gene had nucleotide changes (2130CTA→G) in the fifth exon of the 3rd ORF, which led to frame shift and early termination in the process of translating protein. The gene was a novel allele of the YLC1 gene. [Conclusions] We demonstrated that the YLC1 gene is associated with the chlorophyll synthesis, providing a basis for further study on chloroplast pigment synthesis and chloroplast development. [ABSTRACT FROM AUTHOR]

Published

2016

45. Human ULK1 Variation and Susceptibility to Mycobacterium tuberculosis Infection.

Author

Horne, David J., Graustein, Andrew D., Shah, Javeed A., Peterson, Glenna, Savlov, Meg, Steele, Sergio, Narita, Masahiro, and Hawn, Thomas R.

Subjects

*MYCOBACTERIUM tuberculosis, *TUBERCULOSIS, *TUMOR necrosis factors, *TOLL-like receptors, *AUTOPHAGY, *MYCOBACTERIAL diseases, *TUBERCULOSIS microbiology, *ASIANS, *CARRIER proteins, *DISEASE susceptibility, *GENES, *GENETIC polymorphisms, *GENETIC techniques, *NERVE tissue proteins, *RESEARCH funding, *CASE-control method, *HAPLOTYPES, *SIGNAL peptides, *ODDS ratio

Abstract

Background: Unlike tuberculosis, few studies have evaluated a host genetic basis for variability in susceptibility to latent Mycobacterium tuberculosis infection (LTBI). We performed a candidate gene association study of autophagy-related genes and LTBI.Methods: We enrolled close contacts of individuals with pulmonary tuberculosis, assessed LTBI status, and determined clinical and sociodemographic risk factors for LTBI. In participants who self-identified as Asian or black, we compared haplotype-tagging single-nucleotide polymorphisms (SNPs) in ULK1 and GABARAP between cases (n = 143) and controls (n = 106). Using CRISPR/Cas9 in U937 monocytes, we investigated the effect of ULK1 deficiency on cytokine expression, autophagy, and M. tuberculosis replication.Results: In Asian participants, we identified 2 ULK1 SNPs (rs12297124 and rs7300908) associated with LTBI. After adjustment for population admixture and clinical risk for LTBI, each rs12297124 minor allele conferred 80% reduction in LTBI risk (odds ratio, 0.18; 95% confidence interval, .07-.46). Compared with controls, ULK1-deficient cells exhibited decreased tumor necrosis factor secretion after stimulation with Toll-like receptor ligands and M. tuberculosis whole-cell lysate, increased M. tuberculosis replication, and decreased selective autophagy.Conclusions: These results demonstrate a strong association of rs12297124, a noncoding ULK1 SNP, with LTBI and a role for ULK1 regulation of TNF secretion, nonspecific and M. tuberculosis-induced autophagy, and M. tuberculosis replication in monocytes. [ABSTRACT FROM AUTHOR]

Published

2016

46. Autosomal dominant hereditary spastic paraplegia with axonal sensory motor polyneuropathy maps to chromosome 21q 22.3.

Author

Peddareddygari, Leema Reddy, Hanna, Philip A., Igo, Robert P., Luo, Yuqun A., Won, Sungho, Hirano, Michio, and Grewal, Raji P.

Subjects

*FAMILIAL spastic paraplegia, *POLYCYSTIC kidney disease, *MICROSATELLITE repeats, *HAPLOTYPES, *AUTOSOMAL recessive polycystic kidney

Abstract

Aim:Hereditary spastic paraplegia (HSP) are a genetically and clinically heterogeneous group of disorders. At present, 19 autosomal dominant loci for HSP have been mapped. We ascertained an American family of European descent segregating an autosomal dominant HSP associated with peripheral neuropathy.Methods:A genome wide scan was performed with 410 microsatellite repeat marker (Weber lab screening set 16) and following linkage and haplotype analysis, fine mapping was performed. Established genes or loci for HSP were excluded by direct sequencing or haplotype analysis.Results:All established loci for HSP were excluded. Fine mapping suggested a locus on chromosome 21q22.3 flanked by markers D21S1411 and D21S1446 with a maximum logarithm of odds score of 2.05 and was supported by haplotype analysis. A number of candidate genes in this region were analyzed and no disease-producing mutations were detected.Conclusion:We present the clinical and genetic analysis of an American family with autosomal dominant HSP with axonal sensory motor polyneuropathy mapping to a novel locus on chromosome 21q22.3 designated SPG56. [ABSTRACT FROM AUTHOR]

Published

2016

47. Study of IRF6 and 8q24 region in non-syndromic oral clefts in the Brazilian population.

Author

Souza, LT, Kowalski, TW, Ferrari, J, Monlléo, IL, Ribeiro, EM, Souza, J, Fett‐Conte, AC, Araujo, TK, Gil‐da‐Silva‐Lopes, VL, Ribeiro‐dos‐Santos, ÂKC, Santos, SEB, and Félix, TM

Subjects

*CLEFT palate, *CLEFT lip, *DNA analysis, *CRANIOFACIAL abnormalities, *GENES, *RESEARCH funding, *GENOMICS, *GENETICS

Abstract

Objectives We investigated the association between non-syndromic oral cleft and variants in IRF6 (rs2235371 and rs642961) and 8q24 region (rs987525) according to the ancestry contribution of the Brazilian population. Subjects and methods Subjects with oral cleft ( CL, CLP, or CP) and their parents were selected from different geographic regions of Brazil. Polymorphisms were genotyped using a TaqMan assay and genomic ancestry was estimated using a panel of 48 INDEL polymorphisms. Results A total of 259 probands were analyzed. A TDT detected overtransmission of the rs2235371 G allele ( P = 0.0008) in the total sample. A significant association of this allele was also observed in CLP ( P = 0.0343) and CLP + CL ( P = 0.0027). IRF6 haplotype analysis showed that the G/A haplotype increased the risk for cleft in children (single dose: P = 0.0038, double dose: P = 0.0022) and in mothers (single dose: P = 0.0016). The rs987525 (8q24) also exhibited an association between the A allele and the CLP + CL group ( P = 0.0462). These results were confirmed in the probands with European ancestry. Conclusions The 8q24 region plays a role in CL/P and the IRF6 G/A haplotype (rs2235371/rs642961) increases the risk for oral cleft in the Brazilian population. [ABSTRACT FROM AUTHOR]

Published

2016

48. Genetic mapping high protein content QTL from soybean ‘Nanxiadou 25’ and candidate gene analysis

Author

Feng Jun, Lin Mao, Jianqiu Lian, Jiangang An, Liezhao Liu, Zeng Zhaoqiong, Jia Wang, Haiying Wu, Mingrong Zhang, Xiaobo Yu, and Wenying Yang

Subjects

Crops, Agricultural, Genetic Markers, Candidate gene, Low protein, Genotype, Quantitative Trait Loci, Single-nucleotide polymorphism, RNA-Seq, Plant Science, Quantitative trait locus, Biology, Gene mapping, Gene Expression Regulation, Plant, Gene, Genetic Association Studies, Plant Proteins, Genetics, Sequence Analysis, RNA, Quantitative trait loci (QTL), fungi, Botany, Chromosome Mapping, Genetic Variation, food and beverages, QTL-seq, QK1-989, Seeds, Seed protein content, Soybeans, RNA-seq, Soybean, Candidate Gene Analysis, Research Article

Abstract

Background Soybean is a globally important legume crop that provides a primary source of high-quality vegetable protein and oil. Seed protein content (SPC) is a valuable quality trait controlled by multiple genes in soybean. Results In this study, we performed quantitative trait loci (QTL) mapping, QTL-seq, and RNA sequencing (RNA-seq) to reveal the genes controlling protein content in the soybean by using the high protein content variety Nanxiadou 25. A total of 50 QTL for SPC distributed on 14 chromosomes except chromosomes 4, 12, 14, 17, 18, and 19 were identified by QTL mapping using 178 recombinant inbred lines (RILs). Among these QTL, the major QTL qSPC_20–1 and qSPC_20–2 on chromosome 20 were repeatedly detected across six tested environments, corresponding to the location of the major QTL detected using whole-genome sequencing-based QTL-seq. 329 candidate DEGs were obtained within the QTL region of qSPC_20–1 and qSPC_20–2 via gene expression profile analysis. Nine of which were associated with SPC, potentially representing candidate genes. Clone sequencing results showed that different single nucleotide polymorphisms (SNPs) and indels between high and low protein genotypes in Glyma.20G088000 and Glyma.16G066600 may be the cause of changes in this trait. Conclusions These results provide the basis for research on candidate genes and marker-assisted selection (MAS) in soybean breeding for seed protein content.

Published

2021

49. Gene mapping and candidate gene analysis of a novel watermelon lesion mimic mutant clalm

Author

kai liu, wei dong, de feng wu, and Guo Jinggong

Subjects

Lesion, Genetics, Gene mapping, Mutant, medicine, medicine.symptom, Biology, Candidate Gene Analysis

Abstract

The leaf is an extremely important plant organ exhibiting a broad range of phenotypic variation. In watermelon (Citrullus lanatus), leaf spotting is a rare, valuable trait that can be used by breeders for selection at early growth stages. In this study, we tested a seven-generation family to determine the inheritance and genetic basis of this trait. As revealed by analysis of the lesion mimic mutant clalm, leaf spotting is controlled by a single dominant gene. Whole genome resequencing–bulked segregant analysis demonstrated that this gene is located on chromosome 4 from 3,760,000 bp to 7,440,000 bp, a region corresponding to a physical distance of 3.68 Mb encompassing approximately 72 annotated genes and eight non-synonymous coding SNPs. According to quantitative real-time PCR analysis, the expression level of ClCG04G001930 was significantly lower in the clalm mutant than in normal watermelon. The predicted target gene, ClCG04G001930, encodes a fatty acid amide hydrolase protein that regulates a variety of neurobehavioral processes in animals. Twelve-five SNPs were identified in the ClCG04G001930 gene of F2 individuals of the clalm mutant. RNA interference of the ClCG04G001930 gene, designated as ClPAD4, yielded transgenic lines whose leaves gradually developed chlorotic lesions over 3 weeks. Our results suggest that ClPAD4 is the gene responsible for leaf spotting in the clalm mutant. Our findings may serve as a foundation for elucidating the mechanism underlying the spotted leaf trait and should be useful for marker-assisted selection breeding in watermelon.

Published

2021

50. Identification of QTL hotspots affecting agronomic traits and high-throughput vegetation indices in rainfed wheat

Author

Bellvert J, Soriano Jm, Rufo R, Lopes Ms, and Lopez A

Subjects

Candidate gene, business.industry, Abiotic stress, Chromosome regions, Drought tolerance, food and beverages, Plant breeding, Cultivar, Quantitative trait locus, Biology, business, Candidate Gene Analysis, Biotechnology

Abstract

Understanding the genetic basis of agronomic traits is essential for wheat breeding programmes to develop new cultivars with enhanced grain yield under climate change conditions. The use of high-throughput phenotyping (HTP) technologies for the assessment of agronomic performance through drought-adaptive traits opens new possibilities in plant breeding. HTP together with a genome-wide association study (GWAS) mapping approach can become a useful method to dissect the genetic control of complex traits in wheat to enhance grain yield under drought stress. This study aimed to identify molecular markers associated with agronomic and remotely sensed vegetation index (VI)-related traits under rainfed conditions in bread wheat and to use anin silicocandidate gene (CG) approach to search for upregulated CGs under abiotic stress. The plant material consisted of 170 landraces and 184 modern cultivars from the Mediterranean basin that were phenotyped for agronomic and VI traits derived from multispectral images over three and two years, respectively. GWAS identified 2579 marker–trait associations (MTAs). The QTL overview index statistic detected 11 QTL hotspots involving more than one trait in at least two years. A candidate gene analysis detected 12 CGs upregulated under abiotic stress in 6 QTL hotspots. The current study highlights the utility of VI to identify chromosome regions that contribute to yield and drought tolerance under rainfed Mediterranean conditions.

Published

2021