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1. CsMLO8/11 are required for full susceptibility of cucumber stem to powdery mildew and interact with CsCRK2 and CsRbohD.

Author

Bai, Yuling, Liu, Xiaoping, Guan, Jiantao, Yang, Ruizhen, Gu, Xingfang, Sun, Jiaqiang, Yang, Xueyong, Zhang, Shengping, Dong, Shaoyun, Liu, Xin, Han, Jianan, Miao, Han, and Beckles, Diane

Abstract

Powdery mildew (PM) is one of the most destructive diseases that threaten cucumber production globally. Efficient breeding of novel PM-resistant cultivars will require a robust understanding of the molecular mechanisms of cucumber resistance against PM. Using a genome-wide association study, we detected a locus significantly correlated with PM resistance in cucumber stem, pm-s5.1. A 1449-bp insertion in the CsMLO8 coding region at the pm-s5.1 locus resulted in enhanced stem PM resistance. Knockout mutants of CsMLO8 and CsMLO11 generated by CRISPR/Cas9 both showed improved PM resistance in the stem, hypocotyl, and leaves, and the double mutant mlo8mlo11 displayed even stronger resistance. We found that reactive oxygen species (ROS) accumulation was higher in the stem of these mutants. Protein interaction assays suggested that CsMLO8 and CsMLO11 could physically interact with CsRbohD and CsCRK2, respectively. Further, we showed that CsMLO8 and CsCRK2 competitively interact with the C-terminus of CsRbohD to affect CsCRK2-CsRbohD module-mediated ROS production during PM defense. These findings provide new insights into the understanding of CsMLO proteins during PM defense responses.

Published
2024

2. Genome-wide association analysis reveal candidate genes and haplotypes related to root weight in cucumber (Cucumis sativus L.).

Author

Dai, Zhuonan, Dong, Shaoyun, Cai, Hexu, Beckles, Diane, Guan, Jiantao, Liu, Xiaoping, Gu, Xingfang, Miao, Han, and Zhang, Shengping

Subjects
GWAS (genome-wide association study), candidate genes, cucumber (Cucumis sativus L.), haplotypes, root
Abstract

BACKGROUND: The plant root system is critical for the absorption of water and nutrients, and have a direct influence on growth and yield. In cucumber, a globally consumed crop, the molecular mechanism of root development remains unclear, and this has implications for developing stress tolerant varieties. This study sought to determine the genetic patterns and related genes of cucumber root weight. A core cucumber germplasms population was used to do the GWAS analysis in three environments. RESULTS: Here, we investigated four root-weight related traits including root fresh weight (RFW), root dry weight (RDW), ratio of root dry weight to root fresh weight (RDFW) and the comprehensive evaluation index, D-value of root weight (DRW) deduced based on the above three traits for the core germplasm of the cucumber global repository. According to the D-value, we identified 21 and 16 accessions with light and heavy-root, respectively. We also found that the East Asian ecotype accessions had significantly heavier root than other three ecotypes. The genome-wide association study (GWAS) for these four traits reveals that 4 of 10 significant loci (gDRW3.1, gDRW3.2, gDRW4.1 and gDRW5.1) were repeatedly detected for at least two traits. Further haplotype and expression analysis for protein-coding genes positioned within these 4 loci between light and heavy-root accessions predicted five candidate genes (i.e., Csa3G132020 and Csa3G132520 both encoding F-box protein PP2-B1 for gDRW3.1, Csa3G629240 encoding a B-cell receptor-associated protein for gDRW3.2, Csa4G499330 encodes a GTP binding protein for gDRW4.1, and Csa5G286040 encodes a proteinase inhibitor for gDRW5.1). CONCLUSIONS: We conducted a systematic analysis of the root genetic basis and characteristics of cucumber core germplasms population. We detected four novel loci, which regulate the root weight in cucumber. Our study provides valuable candidate genes and haplotypes for the improvement of root system in cucumber breeding.

Published
2024

5. GWAS reveals novel loci and identifies a pentatricopeptide repeat-containing protein (CsPPR) that improves low temperature germination in cucumber

Author

Li, Caixia, Dong, Shaoyun, Beckles, Diane M, Liu, Xiaoping, Guan, Jiantao, Gu, Xingfang, Miao, Han, and Zhang, Shengping

Subjects
Agricultural, Veterinary and Food Sciences, Biological Sciences, Crop and Pasture Production, Genetics, Aetiology, 2.1 Biological and endogenous factors, cucumber, low temperature germination, GWAS, polygenic, CsPPR, cucumber, Plant Biology, Crop and pasture production, Plant biology
Abstract

Low temperatures (LTs) negatively affect the percentage and rate of cucumber (Cucumis sativus L.) seed germination, which has deleterious effects on yield. Here, a genome-wide association study (GWAS) was used to identify the genetic loci underlying low temperature germination (LTG) in 151 cucumber accessions that represented seven diverse ecotypes. Over two years, phenotypic data for LTG i.e., relative germination rate (RGR), relative germination energy (RGE), relative germination index (RGI) and relative radical length (RRL), were collected in two environments, and 17 of the 151 accessions were found to be highly cold tolerant using cluster analysis. A total of 1,522,847 significantly associated single-nucleotide polymorphism (SNP) were identified, and seven loci associated with LTG, on four chromosomes, were detected: gLTG1.1, gLTG1.2, gLTG1.3, gLTG4.1, gLTG5.1, gLTG5.2, and gLTG6.1 after resequencing of the accessions. Of the seven loci, three, i.e., gLTG1.2, gLTG4.1, and gLTG5.2, showed strong signals that were consistent over two years using the four germination indices, and are thus strong and stable for LTG. Eight candidate genes associated with abiotic stress were identified, and three of them were potentially causal to LTG: CsaV3_1G044080 (a pentatricopeptide repeat-containing protein) for gLTG1.2, CsaV3_4G013480 (a RING-type E3 ubiquitin transferase) for gLTG4.1, and CsaV3_5G029350 (a serine/threonine-protein kinase) for gLTG5.2. The function for CsPPR (CsaV3_1G044080) in regulating LTG was confirmed, as Arabidopsis lines ectopically expressing CsPPR showed higher germination and survival rates at 4°C compared to the wild-type, which preliminarily illustrates that CsPPR positively regulates cucumber cold tolerance at the germination stage. This study will provide insights into cucumber LT-tolerance mechanisms and further promote cucumber breeding development.

Published
2023

12. CsMLO8/11 are required for full susceptibility of cucumber stem to powdery mildew and interact with CsCRK2 and CsRbohD

Author

Dong, Shaoyun, Liu, Xin, Han, Jianan, Miao, Han, Beckles, Diane M., Bai, Yuling, Liu, Xiaoping, Guan, Jiantao, Yang, Ruizhen, Gu, Xingfang, Sun, Jiaqiang, Yang, Xueyong, Zhang, Shengping, Dong, Shaoyun, Liu, Xin, Han, Jianan, Miao, Han, Beckles, Diane M., Bai, Yuling, Liu, Xiaoping, Guan, Jiantao, Yang, Ruizhen, Gu, Xingfang, Sun, Jiaqiang, Yang, Xueyong, and Zhang, Shengping

Abstract

Powdery mildew (PM) is one of the most destructive diseases that threaten cucumber production globally. Efficient breeding of novel PM-resistant cultivars will require a robust understanding of the molecular mechanisms of cucumber resistance against PM. Using a genome-wide association study, we detected a locus significantly correlated with PM resistance in cucumber stem, pm-s5.1. A 1449-bp insertion in the CsMLO8 coding region at the pm-s5.1 locus resulted in enhanced stem PM resistance. Knockout mutants of CsMLO8 and CsMLO11 generated by CRISPR/Cas9 both showed improved PM resistance in the stem, hypocotyl, and leaves, and the double mutant mlo8mlo11 displayed even stronger resistance. We found that reactive oxygen species (ROS) accumulation was higher in the stem of these mutants. Protein interaction assays suggested that CsMLO8 and CsMLO11 could physically interact with CsRbohD and CsCRK2, respectively. Further, we showed that CsMLO8 and CsCRK2 competitively interact with the C-terminus of CsRbohD to affect CsCRK2-CsRbohD module-mediated ROS production during PM defense. These findings provide new insights into the understanding of CsMLO proteins during PM defense responses.

Published
2024

25. Investigation of the Role of a Zinc Uptake Regulator (Zur) in the Virulence of Pectobacterium odoriferum.

Author

Chen, Changlong, Cui, Shuang, Guan, Jiantao, Su, Yanyan, Liang, Xucong, Tian, Yu, and Xie, Hua

Subjects
ERWINIA, BIOLOGICAL transport, CELL motility, CHINESE cabbage, HORTICULTURAL crops, CABBAGE
Abstract

Pectobacterium spp. infect many horticultural crops worldwide and lead to serious crop losses. Zinc-uptake-regulator (Zur) proteins are present widely in prokaryotes and play an important role in pathogenicity. To uncover the role of Zur in P. odoriferum, we constructed mutant (ΔZur) and overexpression [Po (Zur)] strains of a Zur, and a virulence assay showed that the Po (Zur) was of significantly lower virulence, while the ΔZur displayed significantly increased virulence on Chinese cabbage compared to their respective control strains, wild-type P. odoriferum (Po WT) and P. odoriferum harboring an empty vector (Po (EV)) (p < 0.05). The growth curves of the ΔZur and Po (Zur) showed no obvious differences from those of the control strains. Comparative transcriptome analysis showed that Zur overexpression in P. odoriferum induced differentially expressed genes (DEGs) related to flagellum and cell motility, while mutating Zur resulted in DEGs mainly corresponding to divalent-metal-ion transport and membrane transport. Phenotypic experiments on the Po (Zur) showed that flagellum numbers and cell motility were reduced in comparison with the control, while those of the ΔZur did not change. Collectively, these results show that the Zur negatively regulates the virulence of P. odoriferum and might function via a dual mechanism dependent on dose. [ABSTRACT FROM AUTHOR]

Published
2023
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26. Characterization of gonadal transcriptomes from the turbot (Scophthalmus maximus)

Author

Hu, Yulong, Huang, Meng, Wang, Weiji, Guan, Jiantao, and Kong, Jie

Subjects
Turbots -- Genetic aspects, Transcription (Genetics) -- Observations, Biological sciences
Abstract

The mechanisms underlying sexual reproduction and sex ratio determination remains unclear in turbot, a flatfish of great commercial value. And there is limited information in the turbot database regarding genes related to the reproductive system. Here, we conducted high-throughput transcriptome profiling of turbot gonad tissues to better understand their reproductive functions and to supply essential gene sequence information for marker-assisted selection programs in the turbot industry. In this study, two gonad libraries representing sex differences in Scophthalmus maximus yielded 453 818 high-quality reads that were assembled into 24 611 contigs and 33 713 singletons by using 454 pyrosequencing, 13 936 contigs and singletons (CS) of which were annotated using BLASTx. GO (Gene Ontology) and KEGG (Kyoto Encyclopedia of Genes and Genomes) pathway analyses revealed that various biological functions and processes were associated with many of the annotated CS. Expression analyses showed that 510 genes were differentially expressed in males versus females; 80% of these genes were annotated. In addition, 6484 and 6036 single nucleotide polymorphisms (SNPs) were identified in male and female libraries, respectively. This transcriptome resource will serve as the foundation for cDNA or SNP microarray construction, gene expression characterization, and sex-specific linkage mapping in turbot. Keywords: turbot, transcriptome, sex, single nucleotide polymorphism. Les mecanismes regissant la reproduction sexuee et la determination du rapport des sexes demeurent meconnus chez le turbot, un poisson plat de grand interet commercial. Il existe egalement peu d'informations au sein de la base de donnees du turbot en ce qui a trait aux genes qui seraient impliques dans le systeme reproducteur. Dans ce travail, les auteurs ont realise un profil transcriptomique a haut debit des tissus gonadiques du turbot pour mieux comprendre leurs fonctions reproductrices et pour obtenir une information essentielle sur la sequence des genes, tout cela en vue de programmes de selection assistee de marqueurs dans l'industrie du turbot. Deux librairies gonadiques representant les differences sexuelles chez le Scophthalmus maximus ont permis d'obtenir 453 818 sequences 454 de haute qualite, lesquelles ont ete assemblees pour former 24 611 contigs et 33 713 singletons. De ce nombre, 13 936 contigs et singletons (CS) ont ete annotes au moyen d'une analyse BLASTx. Des analyses GO (<>) et KEGG (<>) ont revele que diverses fonctions ainsi que divers processus biologiques etaient associes a plusieurs des CS annotes. Des analyses d'expression ont montre que 510 genes etaient exprimes differemment chez les males vs les femelles, et que 80% de ceux-ci etaient annotes. De plus, 6484 et 6036 polymorphismes mononucleotidiques (SNP) ont ete identifies respectivement au sein des librairies males et femelles. Cette ressource transcriptomique servira d'assise pour la production de puces d'ADNc ou de SNP, pour la caracterisation de l'expression genique et la cartographie genetique specifique du sexe chez le turbot. [Traduit par la Redaction] Mots-cles : turbot, transcriptome, sexe, polymorphismes mononucleotidique., Introduction The turbot (Scophthalmus maximus), also known as Psetta maxima, is an important economic flatfish species belonging to the family Scophthalmidae (order Pleuronectiformes). It is a marine flatfish species naturally [...]

Published
2016
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28. InDels Identification and Association Analysis with Spike and Awn Length in Chinese Wheat Mini-Core Collection

Author

Wang, Zhenyu, primary, Deng, Zhongyin, additional, Kong, Xingchen, additional, Wang, Fang, additional, Guan, Jiantao, additional, Cui, Dada, additional, Sun, Guoliang, additional, Liao, Ruyi, additional, Fu, Mingxue, additional, Che, Yuqing, additional, Hao, Chenyang, additional, Geng, Shuaifeng, additional, Zhang, Xueyong, additional, Zhou, Peng, additional, Mao, Long, additional, Liu, Shaoshuai, additional, and Li, Aili, additional

Published
2022
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30. Population-scale peach genome analyses unravel selection patterns and biochemical basis underlying fruit flavor

Author

Zhijun Shen, Zhengquan Zhang, Guo Jiying, Xu Yaoguang, Guan Jiantao, Jianbo Zhao, Jianhua Wei, Yu Yang, Xie Hua, Jun Fu, Quan Jiang, Juan Yan, and Fei Ren

Subjects
Agricultural genetics, 0106 biological sciences, 0301 basic medicine, Linkage disequilibrium, Science, Population, General Physics and Astronomy, Fruit Flavor, Genomics, Biology, Genes, Plant, Polymorphism, Single Nucleotide, 01 natural sciences, Linkage Disequilibrium, Article, General Biochemistry, Genetics and Molecular Biology, Plant evolution, 03 medical and health sciences, Prunus, Genome Size, Gene Expression Regulation, Plant, Genetic variation, education, Genome size, Phylogeny, Genetic association study, Genetic association, Prunus persica, education.field_of_study, Multidisciplinary, food and beverages, Genetic Variation, Sequence Analysis, DNA, General Chemistry, Plant Breeding, 030104 developmental biology, Genetic Loci, Evolutionary biology, Fruit, Metagenomics, Sugars, Genome, Plant, 010606 plant biology & botany
Abstract

A narrow genetic basis in modern cultivars and strong linkage disequilibrium in peach (Prunus persica) has restricted resolution power for association studies in this model fruit species, thereby limiting our understanding of economically important quality traits including fruit flavor. Here, we present a high-quality genome assembly for a Chinese landrace, Longhua Shui Mi (LHSM), a representative of the Chinese Cling peaches that have been central in global peach genetic improvement. We also map the resequencing data for 564 peach accessions to this LHSM assembly at an average depth of 26.34× per accession. Population genomic analyses reveal a fascinating history of convergent selection for sweetness yet divergent selection for acidity in eastern vs. western modern cultivars. Molecular-genetics and biochemical analyses establish that PpALMT1 (aluminum-activated malate transporter 1) contributes to their difference of malate content and that increases fructose content accounts for the increased sweetness of modern peach fruits, as regulated by PpERDL16 (early response to dehydration 6-like 16). Our study illustrates the strong utility of the genomics resources for both basic and applied efforts to understand and exploit the genetic basis of fruit quality in peach., Longhua Shui Mi (LHSM) is a representative of the Chinese Cling peaches that have been central in global peach genetic improvement. Here, the authors assemble the genome of LHSM and show convergent selection for sweetness yet divergent selection for acidity in eastern vs. western cultivars through population genomics analyses.

Published
2021

31. The wheat AGL6 ‐like MADS‐box gene is a master regulator for floral organ identity and a target for spikelet meristem development manipulation

Author

Kong, Xingchen, primary, Wang, Fang, additional, Geng, Shuaifeng, additional, Guan, Jiantao, additional, Tao, Shu, additional, Jia, Meiling, additional, Sun, Guoliang, additional, Wang, Zhenyu, additional, Wang, Ke, additional, Ye, Xingguo, additional, Ma, Jian, additional, Liu, Dengcai, additional, Wei, Yuming, additional, Zheng, Youliang, additional, Fu, Xiangdong, additional, Mao, Long, additional, Lan, Xiujin, additional, and Li, Aili, additional

Published
2021
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32. Single-cell transcriptomic analysis of flowering regulation and vernalization in Chinese cabbage shoot apex

Author

Dai, Yun, Zhang, Shifan, Guan, Jiantao, Wang, Shaoxing, Zhang, Hui, Li, Guoliang, Sun, Rifei, Li, Fei, and Zhang, Shujiang

Abstract

In Chinese cabbage development the interplay between shoot apex activity and vernalization is pivotal for flowering timing. The intricate relationship between various cell types in the shoot apex meristem and their roles in regulating flowering gene expression in Chinese cabbage is not yet fully understood. A thorough analysis of single-cell types in the Chinese cabbage shoot apex and their influence on flowering genes and vernalization is essential for deeper insight. Our study first established a single-cell transcriptomic atlas of Chinese cabbage after 25 days of non-vernalization. Analyzing 19 602 single cells, we differentiated them into 15 distinct cell clusters using established marker genes. We found that key genes in shoot apex development and flowering were primarily present in shoot meristematic cells (SMCs), companion cells (CCs), and mesophyll cells (MCs). MADS-box protein FLOWERING LOCUS C 2(BrFLC2), a gene suppressing flowering, was observed in CCs, mirroring patterns found in Arabidopsis. By mapping developmental trajectories of SMCs, CCs, and MCs, we elucidated the evolutionary pathways of crucial genes in shoot apex development and flowering. The creation of a single-cell transcriptional atlas of the Chinese cabbage shoot apex under vernalization revealed distinct alterations in the expression of known flowering genes, such as VERNALIZATION INSENSITIVE 3(VIN3), VERNALIZATION 1(VRN1), VERNALIZATION 2(VRN2), BrFLC, and FLOWERING LOCUS T(FT), which varied by cell type. Our study underscores the transformative impact of single-cell RNA sequencing (scRNA-seq) for unraveling the complex differentiation and vernalization processes in the Chinese cabbage shoot apex. These insights are pivotal for enhancing breeding strategies and cultivation management of this vital vegetable.

Published
2024
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34. The wheat AGL6‐like MADS‐box gene is a master regulator for floral organ identity and a target for spikelet meristem development manipulation.

Author

Kong, Xingchen, Wang, Fang, Geng, Shuaifeng, Guan, Jiantao, Tao, Shu, Jia, Meiling, Sun, Guoliang, Wang, Zhenyu, Wang, Ke, Ye, Xingguo, Ma, Jian, Liu, Dengcai, Wei, Yuming, Zheng, Youliang, Fu, Xiangdong, Mao, Long, Lan, Xiujin, and Li, Aili

Subjects
MERISTEMS, G proteins, MORPHOGENESIS, PROTEIN models, GENES
Abstract

Summary: The AGAMOUS‐LIKE6 (AGL6)‐like genes are ancient MADS‐box genes and are functionally studied in a few model plants. The knowledge of these genes in wheat remains limited. Here, by studying a 'double homoeolog mutant' of the AGL6 gene in tetraploid wheat, we showed that AGL6 was required for the development of all four whorls of floral organs with dosage‐dependent effect on floret fertility. Yeast two‐hybrid analyses detected interactions of AGL6 with all classes of MADS‐box proteins in the ABCDE model for floral organ development. AGL6 was found to interact with several additional proteins, including the G protein β and γ (DEP1) subunits. Analysis of the DEP1‐B mutant showed a significant reduction in spikelet number per spike in tetraploid wheat, while overexpression of AGL6 in common wheat increased the spikelet number per spike and hence the grain number per spike. RNA‐seq analysis identified the regulation of several meristem activity genes by AGL6, such as FUL2 and TaMADS55. Our work therefore extensively updated the wheat ABCDE model and proposed an alternative approach to improve wheat grain yield by manipulating the AGL6 gene. [ABSTRACT FROM AUTHOR]

Published
2022
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36. Genetic mapping of folate QTLs using a segregated population in maize

Author

Guo, Wenzhu, primary, Lian, Tong, additional, Wang, Baobao, additional, Guan, Jiantao, additional, Yuan, Dong, additional, Wang, Huan, additional, Safiul Azam, Fardous Mohammad, additional, Wan, Xing, additional, Wang, Weixuan, additional, Liang, Qiuju, additional, Wang, Haiyang, additional, Tu, Jinxing, additional, Zhang, Chunyi, additional, and Jiang, Ling, additional

Published
2019
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37. A high‐throughput BAC end analysis protocol (BAC‐anchor) for profiling genome assembly and physical mapping.

Author

Yang, Xiaohui, Yang, Yu, Ling, Jian, Guan, Jiantao, Guo, Xiao, Dong, Daofeng, Jin, Liping, Huang, Sanwen, Liu, Jun, and Li, Guangcun

Subjects
BACTERIAL artificial chromosomes, GENE libraries, FRENCH fries, CHROMOSOMES, NUCLEOTIDE sequencing, POTATOES
Abstract

Summary: Traditional approaches for sequencing insertion ends of bacterial artificial chromosome (BAC) libraries are laborious and expensive, which are currently some of the bottlenecks limiting a better understanding of the genomic features of auto‐ or allopolyploid species. Here, we developed a highly efficient and low‐cost BAC end analysis protocol, named BAC‐anchor, to identify paired‐end reads containing large internal gaps. Our approach mainly focused on the identification of high‐throughput sequencing reads carrying restriction enzyme cutting sites and searching for large internal gaps based on the mapping locations of both ends of the reads. We sequenced and analysed eight libraries containing over 3 200 000 BAC end clones derived from the BAC library of the tetraploid potato cultivar C88 digested with two restriction enzymes, Cla I and Mlu I. About 25% of the BAC end reads carrying cutting sites generated a 60–100 kb internal gap in the potato DM reference genome, which was consistent with the mapping results of Sanger sequencing of the BAC end clones and indicated large differences between autotetraploid and haploid genotypes in potato. A total of 5341 Cla I‐ and 165 Mlu I‐derived unique reads were distributed on different chromosomes of the DM reference genome and could be used to establish a physical map of target regions and assemble the C88 genome. The reads that matched different chromosomes are especially significant for the further assembly of complex polyploid genomes. Our study provides an example of analysing high‐coverage BAC end libraries with low sequencing cost and is a resource for further genome sequencing studies. [ABSTRACT FROM AUTHOR]

Published
2020
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38. Genome-Wide Identification and Expression Profiling of the TCP Family Genes in Spike and Grain Development of Wheat (Triticum aestivum L.)

Author

Zhao, Junmin, primary, Zhai, Zhiwen, additional, Li, Yanan, additional, Geng, Shuaifeng, additional, Song, Gaoyuan, additional, Guan, Jiantao, additional, Jia, Meiling, additional, Wang, Fang, additional, Sun, Guoliang, additional, Feng, Nan, additional, Kong, Xingchen, additional, Chen, Liang, additional, Mao, Long, additional, and Li, Aili, additional

Published
2018
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45. Heritability and genotype by environment interactions for growth and survival in Litopenaeus vannamei at low and high densities.

Author

Tan, Jian, Luan, Sheng, Luo, Kun, Guan, Jiantao, Li, Wenjia, Sui, Juan, Guo, Zhaojia, Xu, Shengyu, and Kong, Jie

Subjects
HERITABILITY, WHITELEG shrimp, GENOTYPE-environment interaction, BODY weight, RANDOM effects model
Abstract

Genetic parameters and genotype by rearing density interactions for growth traits and survival were investigated in Litopenaeus vannamei. A total of 3626 shrimps from 40 families in two densities (low density, 80 shrimps m−2; high density, 160 shrimps m−2) were measured for four growth traits, body length, body weight, cephalothorax length and abdominal segment length. Variance components and genetic parameters for growth and survival were estimated using a two-trait animal model or a threshold (probit) sire and dam model. The common environment effect was excluded because it could not be partitioned effectively, likely because of high heritability. The heritability for growth traits varied from 0.21 to 0.44, indicating a moderate level. For survival, the back-transformed heritability ( [ABSTRACT FROM AUTHOR]

Published
2017
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46. Estimation of genetic parameters for early growth trait of turbot ( Scophthalmus maximus L.) using molecular relatedness.

Author

Guan, Jiantao, Wang, Weiji, Luan, Sheng, Ma, Yu, Hu, Yulong, Xu, Liyong, and Kong, Jie

Subjects
*PSETTA maxima, *FISH genetics, *FISH growth, *FISHES, *FISH breeding, *MICROSATELLITE repeats, PEDIGREES
Abstract

In this study, a data set of 1140 progenies from 19 families that were composed of 13 half-sib and six full-sib families was used in the estimation of the genetic parameters of weight for juvenile turbot at 100 days post hatch. Sixty progenies were randomly selected from each family, and 20 of these individuals were genotyped at 12 microsatellite loci. Two sorts of relatedness, including pedigree relatedness ( PR) from a complete pedigree and average molecular relatedness ( AMR) from molecular markers, were compared to explore the feasibility of AMR in selective breeding when only parents were known. Two different animal models, Model 1 and Model 2 which were without and with the addition of maternal and common environmental effects, respectively, were used to estimate the variance component and breeding values for weight using restricted maximum likelihood ( REML) method. Thereafter, cross-validation was applied to investigate predictive ability of model and accuracy of breeding values. Pearson correlation analysis showed that AMR was highly correlated (0.91) with PR. According to conditional Akaike Information Criterion, the best models for AMR and PR methods were Model 2 and Model 1 respectively. Heritability estimates from AMR and PR methods based on their best models were 0.19 (±0.06) and 0.66 (±0.17). Cross-validation showed that AMR was comparable to PR in terms of predictive abilities and accuracies of breeding values based on the same model. This study therefore suggests that the AMR can be applied as alternative of PR when only parents were known. [ABSTRACT FROM AUTHOR]

Published
2016
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47. An estimation of genetic parameters of growth traits in juvenile turbot ( Scophthalmus maximus L.) using parental molecular relatedness.

Author

Guan, Jiantao, Hu, Yulong, Ma, Yu, Kong, Jie, and Wang, Weiji

Abstract

The estimation of genetic parameters has played an important role in animal selective breeding for growth traits. Recently studies show that molecular markers can be incorporated into genetic evaluations. In order to improve the performance of an incomplete pedigree (i.e, only parents are known) in the genetic evaluations, 12 microsatellite markers have been applied in the estimation of the genetic parameters for body weight in a farmed population ( n=1 890) of juvenile turbot ( Scophthalmus maximus L.). A new relatedness called parental molecular relatedness (PMR) is estimated based on results of genotyping of 48 parents (31 males, 17 females) with microsatellites markers. The feasibility of PMR in estimation of genetic parameters is verified by comparison with pedigree related (PR) which is obtained from a complete pedigree. The results demonstrate that a high correlation (0.872) between them is found. Heritabilities are estimated using the PMR (0.52±0.13) and PR (0.55±0.22) with the same animal model. A cross-validation shows that the predictive abilities of models using the PMR and the PR are identical (0.81). From that, a conclusion can be made that PMR and PR predicted genetic values equally well in a population of juvenile turbot. Therefore PMR can be applied as an alternative of the PR when only parents are known. However, for a better performance, more markers and more families should be included in a further study. [ABSTRACT FROM AUTHOR]

Published
2016
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48. Wheatgene: a genomics database for common wheat and its related species

Author

Garcia, Diego F., Wang, Zhengyu, Guan, Jiantao, Yin, Lingjie, Geng, Shuaifeng, Li, Aili, and Mao, Long

Abstract

Common wheat (Triticum aestivum) is a hexaploid plant (AABBDD) derived from genetically related tetraploid wheat T. turgidum(AABB) and a diploid goatgrass Aegilops tauschii(DD). Recent advances in sequencing technology and genome assembly strategies allow the acquisition of multiple wheat genomes, calling for a centralized database to store, manage and query the genomics information in a manner to reflect their evolutionary relationship and to perform effective comparative genome analysis. Here, we built WheatGene, a database that contains five wheat genomes of 318,102 genes and 945,900 transcripts and their expression information in 998 RNA-seq samples that can be searched and compared in an interactive manner. WheatGene was developed with Drupal, a popular content management system and the toolkit Tripalmanaged the biological information. The database was accessible through a web browser with species, search, gene expression, tools, and literature entries. Tools available were BLAST, synteny viewer, map viewer, JBrowse, data downloads, gene expression heatmap and bar chart, and homologs viewer. Moreover, the map viewer connected genomics data with genetic maps and QTL that can be searched for markers for molecular breeding. WheatGene was developed with open-source modules and libraries. WheatGene is available at http://wheatgene.agrinome.org.

Published
2021
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49. Genome-wide association analysis reveal candidate genes and haplotypes related to root weight in cucumber ( Cucumis sativus L.).

Author

Dai Z, Dong S, Cai H, Beckles DM, Guan J, Liu X, Gu X, Miao H, and Zhang S

Abstract

Background: The plant root system is critical for the absorption of water and nutrients, and have a direct influence on growth and yield. In cucumber, a globally consumed crop, the molecular mechanism of root development remains unclear, and this has implications for developing stress tolerant varieties. This study sought to determine the genetic patterns and related genes of cucumber root weight. A core cucumber germplasms population was used to do the GWAS analysis in three environments., Results: Here, we investigated four root-weight related traits including root fresh weight (RFW), root dry weight (RDW), ratio of root dry weight to root fresh weight (RDFW) and the comprehensive evaluation index, D-value of root weight (DRW) deduced based on the above three traits for the core germplasm of the cucumber global repository. According to the D-value, we identified 21 and 16 accessions with light and heavy-root, respectively. We also found that the East Asian ecotype accessions had significantly heavier root than other three ecotypes. The genome-wide association study (GWAS) for these four traits reveals that 4 of 10 significant loci (gDRW3.1, gDRW3.2, gDRW4.1 and gDRW5.1) were repeatedly detected for at least two traits. Further haplotype and expression analysis for protein-coding genes positioned within these 4 loci between light and heavy-root accessions predicted five candidate genes (i.e., Csa3G132020 and Csa3G132520 both encoding F-box protein PP2-B1 for gDRW3.1, Csa3G629240 encoding a B-cell receptor-associated protein for gDRW3.2, Csa4G499330 encodes a GTP binding protein for gDRW4.1, and Csa5G286040 encodes a proteinase inhibitor for gDRW5.1)., Conclusions: We conducted a systematic analysis of the root genetic basis and characteristics of cucumber core germplasms population. We detected four novel loci, which regulate the root weight in cucumber. Our study provides valuable candidate genes and haplotypes for the improvement of root system in cucumber breeding., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Dai, Dong, Cai, Beckles, Guan, Liu, Gu, Miao and Zhang.)

Published
2024
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50. CsMLO8/11 are required for full susceptibility of cucumber stem to powdery mildew and interact with CsCRK2 and CsRbohD.

Author

Dong S, Liu X, Han J, Miao H, Beckles DM, Bai Y, Liu X, Guan J, Yang R, Gu X, Sun J, Yang X, and Zhang S

Abstract

Powdery mildew (PM) is one of the most destructive diseases that threaten cucumber production globally. Efficient breeding of novel PM-resistant cultivars will require a robust understanding of the molecular mechanisms of cucumber resistance against PM. Using a genome-wide association study, we detected a locus significantly correlated with PM resistance in cucumber stem, pm-s5.1 . A 1449-bp insertion in the CsMLO8 coding region at the pm-s5.1 locus resulted in enhanced stem PM resistance. Knockout mutants of CsMLO8 and CsMLO11 generated by CRISPR/Cas9 both showed improved PM resistance in the stem, hypocotyl, and leaves, and the double mutant mlo8mlo11 displayed even stronger resistance. We found that reactive oxygen species (ROS) accumulation was higher in the stem of these mutants. Protein interaction assays suggested that CsMLO8 and CsMLO11 could physically interact with CsRbohD and CsCRK2, respectively. Further, we showed that CsMLO8 and CsCRK2 competitively interact with the C-terminus of CsRbohD to affect CsCRK2-CsRbohD module-mediated ROS production during PM defense. These findings provide new insights into the understanding of CsMLO proteins during PM defense responses., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (© The Author(s) 2024. Published by Oxford University Press on behalf of Nanjing Agricultural University.)

Published
2023
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