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1. Genetic Dissection of Salt Tolerance and Yield Traits of Geng (japonica) Rice by Selective Subspecific Introgression

Author

Simin Li, Ting Feng, Chenyang Zhang, Fanlin Zhang, Hua Li, Yanjun Chen, Lunping Liang, Chaopu Zhang, Wei Zeng, Erbao Liu, Yingyao Shi, Min Li, and Lijun Meng

Subjects
salt tolerance, selection, correlated phenotypic responses, QTL clusters, rice, Biology (General), QH301-705.5
Abstract

Salinity is a major factor limiting rice productivity, and developing salt-tolerant (ST) varieties is the most efficient approach. Seventy-eight ST introgression lines (ILs), including nine promising lines with improved ST and yield potential (YP), were developed from four BC2F4 populations from inter-subspecific crosses between an elite Geng (japonica) recipient and four Xian (indica) donors at the Institute of Crop Sciences, Chinese Academy of Agricultural Sciences. Genome-wide characterization of donor introgression identified 35 ST QTLs, 25 of which harbor 38 cloned ST genes as the most likely QTL candidates. Thirty-four are Xian-Geng differentiated ones with the donor (Xian) alleles associated with ST, suggesting differentiated responses to salt stress were one of the major phenotypic differences between the two subspecies. At least eight ST QTLs and many others affecting yield traits were identified under salt/non-stress conditions. Our results indicated that the Xian gene pool contains rich ‘hidden’ genetic variation for developing superior Geng varieties with improved ST and YP, which could be efficiently exploited by selective introgression. The developed ST ILs and their genetic information on the donor alleles for ST and yield traits would provide a useful platform for developing superior ST and high-yield Geng varieties through breeding by design in the future.

Published
2023
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2. Identifying the Quantitative Trait Locus and Candidate Genes of Traits Related to Milling Quality in Rice via a Genome-Wide Association Study

Author

Changmin Hu, Xinru Li, Mengyuan Zhang, Chunyu Jing, Mei Hai, Jiaming Shen, Qing Xu, Xiaojing Dang, Yingyao Shi, Erbao Liu, and Jianhua Jiang

Subjects
rice, milling quality, genome-wide association study, quantitative trait loci, candidate gene, Botany, QK1-989
Abstract

Milling quality directly affects production efficiency in rice, which is closely related to the brown rice recovery (BRR), the milled rice recovery (MRR) and the head milled rice recovery (HMRR). The present study investigated these three traits in 173 germplasms in two environments, finding abundant phenotypic variation. Three QTLs for BRR, two for MRR, and three for HMRR were identified in a genome-wide association study, five of these were identified in previously reported QTLs and three were newly identified. By combining the linkage disequilibrium (LD) analyses, the candidate gene LOC_Os05g08350 was identified. It had two haplotypes with significant differences and Hap 2 increased the BRR by 4.40%. The results of the qRT-PCR showed that the expression of LOC_Os05g08350 in small-BRR accessions was significantly higher than that in large-BRR accessions at Stages 4–5 of young panicle development, reaching the maximum value at Stage 5. The increase in thickness of the spikelet hulls of the accession carrying LOC_Os05g08350TT occurred due to an increase in the cell width and the cell numbers in cross-sections of spikelet hulls. These results help to further clarify the molecular genetic mechanism of milling-quality-related traits and provide genetic germplasm materials for high-quality breeding in rice.

Published
2024
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3. Mining the candidate genes of rice panicle traits via a genome-wide association study

Author

Zhengbo Liu, Hao Sun, Yanan Zhang, Mingyu Du, Jun Xiang, Xinru Li, Yinping Chang, Jinghan Sun, Xianping Cheng, Mengyuan Xiong, Zhe Zhao, and Erbao Liu

Subjects
rice, panicle traits, genome-wide association study, favorable haplotypes, candidate genes, Genetics, QH426-470
Abstract

Panicle traits are important for improving the panicle architecture and grain yield of rice. Therefore, we performed a genome-wide association study (GWAS) to analyze and determine the genetic determinants of five panicle traits. A total of 1.29 million single nucleotide polymorphism (SNP) loci were detected in 162 rice materials. We carried out a GWAS of panicle length (PL), total grain number per panicle (TGP), filled grain number per panicle (FGP), seed setting rate (SSR) and grain weight per panicle (GWP) in 2019, 2020 and 2021. Four quantitative trait loci (QTLs) for PL were detected on chromosomes 1, 6, and 9; one QTL for TGP, FGP, and GWP was detected on chromosome 4; two QTLs for FGP were detected on chromosomes 4 and 7; and one QTL for SSR was detected on chromosome 1. These QTLs were detected via a general linear model (GLM) and mixed linear model (MLM) in both years of the study period. In this study, the genomic best linear unbiased prediction (BLUP) method was used to verify the accuracy of the GWAS results. There are nine QTLs were both detected by the multi-environment GWAS method and the BLUP method. Moreover, further analysis revealed that three candidate genes, LOC_Os01g43700, LOC_Os09g25784, and LOC_Os04g47890, may be significantly related to panicle traits of rice. Haplotype analysis indicated that LOC_Os01g43700 and LOC_Os09g25784 are highly associated with PL and that LOC_Os04g47890 is highly associated with TGP, FGP, and GWP. Our results offer essential genetic information for the molecular improvement of panicle traits. The identified candidate genes and elite haplotypes could be used in marker-assisted selection to improve rice yield through pyramid breeding.

Published
2023
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4. Screening germplasm and detecting QTLs for mesocotyl elongation trait in rice (Oryza sativa L.) by association mapping

Author

Wisdom Mawuli Edzesi, Xiaojing Dang, Erbao Liu, William Kwame Nuako Bandoh, Patience Mansa Gakpetor, Daniel Aninagyei Ofori, and Delin Hong

Subjects
Dry direct seeding rice, Mesocotyl elongation length, Association mapping, Favorable marker allele, Simple sequence repeat, Genetics, QH426-470
Abstract

Abstract Background Rice is one of the most important food crops in the world and mainly cultivated in paddy field by transplanting seedlings. However, increasing water scarcity due to climate change, labor cost for transplanting, and competition from urbanization is making this traditional method of rice production unsustainable in the long term. In the present study, we mined favorable alleles for mesocotyl elongation length (MEL) by combining the phenotypic data of 543 rice accessions with genotypic data of 262 SSR markers through association mapping method. Results Among the 543 rice accessions studied, we found 130 accessions could elongate mesocotyl length under dark germination condition. A marker-trait association analysis based on a mixed linear model revealed eleven SSR markers were associated with MEL trait with p-value less than 0.01. Among the 11 association loci, seven were novel. In total, 30 favorable marker alleles for MEL were mined, and RM265-140 bp showed the highest phenotypic effect value of 1.8 cm with Yuedao46 as the carrier accession. The long MEL group of rice accessions had higher seedling emergence rate than the short MEL group in the field. The correlation coefficient (r GCC−FSC = 0.485**) between growth chamber condition (GCC) and field soil condition (FSC) showed positive relationship and highly significant (P

Published
2023
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5. Simultaneous improvement and genetic dissection of drought and submergence tolerances in rice (Oryza sativa L.) by selective introgression

Author

Chaopu Zhang, Min Li, Jessica Domingo Rey, Ting Feng, Renee Lafitte, Tianqing Zheng, Yamei Lv, Fengcai Wu, Binying Fu, Jianlong Xu, Fan Zhang, Wei Zeng, Erbao Liu, Jauhar Ali, Wensheng Wang, and Zhikang Li

Subjects
drought tolerance, submergence tolerance, rice, selective introgression, loss of heterozygosity, Plant culture, SB1-1110
Abstract

IntroductionDrought and submergence are contrasting abiotic stresses that often occur in the same rice crop season and cause complete crop failure in many rain-fed lowland areas of Asia.MethodsTo develop rice varieties with good tolerances to drought and submergence, 260 introgression lines (ILs) selected for drought tolerance (DT) from nine BC2 populations were screened for submergence tolerance (ST), resulting in 124 ILs with significantly improved ST.ResultsGenetic characterization of the 260 ILs with DNA markers identified 59 DT quantitative trait loci (QTLs) and 68 ST QTLs with an average 55% of the identified QTLs associated with both DT and ST. Approximately 50% of the DT QTLs showed ‘epigenetic’ segregation with very high donor introgression and/or loss of heterozygosity (LOH). Detailed comparison of the ST QTLs identified in ILs selected only for ST with ST QTLs detected in the DT-ST selected ILs of the same populations revealed three groups of QTLs underlying the relationship between DT and ST in rice: a) QTLs with pleiotropic effects on both DT and ST; b) QTLs with opposite effects on DT and ST; and c) QTLs with independent effects on DT and ST. Combined evidence identified most likely candidate genes for eight major QTLs affecting both DT and ST. Moreover, group b QTLs were involved in the Sub1regulated pathway that were negatively associated with most group aQTLs.DiscussionThese results were consistent with the current knowledge that DT and ST in rice are controlled by complex cross-talks between or among different phytohormone-mediated signaling pathways. Again, the results demonstrated that the strategy of selective introgression was powerful and efficient for simultaneous improvement and genetic dissection of multiple complex traits, including DT and ST.

Published
2023
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6. SNP Loci and Favorable Haplotype Mining for Alkalinity Tolerance in the Rice Bud Stage

Author

Zhenzhen Zhou, Mingyu Du, Zhengbo Liu, Yingping Chang, Mengyuan Xiong, Hao Sun, Xianping Cheng, Yanan Zhang, Jinghan Sun, Rui Wang, Mengyuan Zhang, Xinru Li, Min Li, Chaopu Zhang, and Erbao Liu

Subjects
Oryza sativa L., genome-wide association analysis, alkalinity stress, transcriptome sequencing analysis, candidate gene prediction, Agriculture
Abstract

The mining of favorable SNP loci and haplotypes is of great significance for the further cloning and molecular-assisted breeding of alkalinity-tolerance genes in rice. To improve the utilization rate of saline–alkaline lands and the yield of rice, we used the 1,322,884 SNPs obtained from the sequencing 173 of rice accessions in this study. Alkalinity-tolerance-related traits, including the germination energy (GE), germination rate (GR), seedling length (SL), root length (RL), relative alkaline damage rate (RADR) of the GERADR of the GR, RADR of the SL and RADR of the RL, were evaluated in 2019 and 2020 and revealed abundant phenotypes in the studied population. A genome-wide association analysis detected 10 quantitative trait loci (QTLs) related to alkalinity tolerance. In addition, a transcriptome sequencing analysis of the alkalinity-tolerant rice variety ‘Yuedao 9’ and the alkali-sensitive rice variety ‘Tijin’ under alkalinity stress and control conditions was performed. Three candidate genes that were predicted to be related to alkalinity tolerance in rice, namely LOC_Os06g06600, LOC_Os011g44680 and LOC_Os011g44600, were screened based on gene annotation, coding sequences and haplotype analysis. The results of this study provide important genetic information for the molecular improvement of rice.

Published
2023
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7. Mining Salt Tolerance SNP Loci and Prediction of Candidate Genes in the Rice Bud Stage by Genome-Wide Association Analysis

Author

Rui Wang, Zhenzhen Zhou, Mengyuan Xiong, Mingyu Du, Xingxing Lin, Cuiping Liu, Mingwei Lu, Zhengbo Liu, Yinping Chang, and Erbao Liu

Subjects
rice, germination stage, salt tolerance, SNP loci, genome-wide association analysis, Botany, QK1-989
Abstract

Mining salt tolerance genes is significant for breeding high-quality salt-tolerant rice varieties in order to improve the utilization of saline–alkaline land. In this study, 173 rice accessions were measured for their germination potential (GP), germination rate (GR), seedling length (SL), root length (RL), germination potential relative to salt damage rate (GPR), germination rate relative to salt damage rate (GRR), seedling length relative to salt damage rate (SLR), relative salt damage rate at the germination stage (RSD) and comprehensive relative salt damage rate in the early seedling stage (CRS) under normal and salt stress conditions. Genome-wide association analysis was performed with 1,322,884 high-quality SNPs obtained by resequencing. Eight quantitative trait loci (QTLs) related to salt tolerance traits at the germination stage were detected in 2020 and 2021. They were related to the GPR (qGPR2) and SLR (qSLR9), which were newly discovered in this study. Three genes were predicted as salt tolerance candidate genes: LOC_Os02g40664, LOC_Os02g40810, and LOC_Os09g28310. At present, marker-assisted selection (MAS) and gene-edited breeding are becoming more widespread. Our discovery of candidate genes provides a reference for research in this field. The elite alleles identified in this study may provide a molecular basis for cultivating salt-tolerant rice varieties.

Published
2023
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8. Mining of favorable alleles for seed reserve utilization efficiency in Oryza sativa by means of association mapping

Author

Nour Ali, Dalu Li, Moaz S. Eltahawy, Dina Abdulmajid, Lal Bux, Erbao Liu, Xiaojing Dang, and Delin Hong

Subjects
Oryza sativa, Seed reserve utilization efficiency, Association mapping, Favorable alleles, Direct seeding, Genetics, QH426-470
Abstract

Abstract Background Wet direct-seeded rice is a possible alternative to conventional puddled transplanted rice; the former uses less water and reduces labor requirements. Improving seed reserve utilization efficiency (SRUE) is a key factor in facilitating the application of this technology. However, the QTLs controlling this trait are poorly investigated. In this study, a genome-wide association study (GWAS) was conducted using a natural population composed of 542 accessions of rice (Oryza sativa L.) which were genotyped using 266 SSR markers. Large phenotypic variations in SRUE were found in the studied population. Results The average SRUE over 542 accessions across two years (2016 and 2017) was 0.52 mg.mg− 1, ranging from 0.22 mg.mg-1 to 0.93 mg.mg− 1, with a coefficient of variation of 22.66%. Overall, 2879 marker alleles were detected in the population by 266 pairs of SSR markers, indicating a large genetic variation existing in the population. Using general linear model method, 13 SSR marker loci associated with SRUE were detected and two (RM7309 and RM434) of the 13 loci, were also detected using mixed linear model analyses, with percentage of phenotypic variation explained (PVE) greater than 5% across two years. The 13 association loci (P

Published
2020
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9. Genome-Wide Association Study of Rice Grain Shape and Chalkiness in a Worldwide Collection of Xian Accessions

Author

Nansheng Wang, Huguang Chen, Yingzhi Qian, Zhaojie Liang, Guiqiang Zheng, Jun Xiang, Ting Feng, Min Li, Wei Zeng, Yaling Bao, Erbao Liu, Chaopu Zhang, Jianlong Xu, and Yingyao Shi

Subjects
rice, GWAS, QTLs, grain shape, chalkiness, Botany, QK1-989
Abstract

Rice (Oryza sativa L.) appearance quality, which is mainly defined by grain shape and chalkiness, is an important target in rice breeding. In this study, we first re-sequenced 137 indica accessions and then conducted a genome-wide association study (GWAS) for six agronomic traits with the 2,998,034 derived single nucleotide polymorphisms (SNPs) by using the best linear unbiased prediction (BLUP) values for each trait. The results revealed that 195 SNPs had significant associations with the six agronomic traits. Based on the genome-wide linkage disequilibrium (LD) blocks, candidate genes for the target traits were detected within 100 kb upstream and downstream of the relevant SNP loci. Results indicate that six quantitative trait loci (QTLs) significantly associated with six traits (qTGW4.1, qTGW4.2, qGL4.1, qGL12.1, qGL12.2, qGW2.1, qGW4.1, qGW6.1, qGW8.1, qGW8.2, qGW9.1, qGW11.1, qGLWR2.1, qGLWR2.2, qGLWR4.2, qPGWC5.1 and qDEC6.1) were identified for haplotype analysis. Among these QTLs, two (qTGW4.2 and qGW6.1), were overlapped with FLO19 and OsbZIP47, respectively, and the remaining four were novel QTLs. These candidate genes were further validated by haplotype block construction.

Published
2023
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10. Favorable alleles mining for gelatinization temperature, gel consistency and amylose content in Oryza sativa by association mapping

Author

Hui Wang, Shangshang Zhu, Xiaojing Dang, Erbao Liu, Xiaoxiao Hu, Moaz Salah Eltahawy, Imdad Ullah Zaid, and Delin Hong

Subjects
Oryza sativa, Linkage disequilibrium,·Genome-wide association mapping, Phenotypic and genetic diversities, Gelatinization temperature, Gel consistency, Amylose content, Genetics, QH426-470
Abstract

Abstract Background Improving the gelatinization temperature (GT), gel consistency (GC) and amylose content (AC) for parental grain eating and cooking qualities (ECQs) are key factors for enhancing average grain ECQs for hybrid japonica rice. Results In this study, a genome-wide association mapping (GWAS) for ECQs was performed on a selected sample of 462 rice accessions in 5 environments using 262 simple sequence repeat markers. We identified 10 loci and 27 favorable alleles for GT, GC and AC, and some of these loci were overlapped with starch synthesis-related genes. Four SSR loci for the GT trait were distributed on chromosomes 3, 5, 8, and 9, of which two SSR loci were novel. Two SSR loci associated with the GC trait were distributed on chromosomes 3 and 6, although only one SSR locus was novel. Four SSR loci associated with the AC trait were distributed on chromosomes 3, 6, 10, and 11, of which three SSR loci were novel. The novel loci RM6712 and RM6327 were simultaneously identified in more than 2 environments and were potentially reliable QTLs for ECQs, with 15 parental combinations being predicted. These QTLs and parental combinations should be used in molecular breeding to improve japonica rice average ECQs. Conclusions Among the 10 SSR loci associated with GT, GC and AC for grain ECQs detected in 27 favorable alleles, the favorable allele RM3600-90bp on chromosome 9 could significantly reduce GT, RM5753-115bp on chromosome 6 could significantly increase GC, and RM6327-230bp on chromosome 11 could significantly reduce AC in hybrid japonica rice mixed rice samples.

Published
2019
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11. Mining Candidate Genes and Favorable Haplotypes for Flag Leaf Shape in Rice (Oryza sativa L.) Based on a Genome-Wide Association Study

Author

Mingyu Du, Mengyuan Xiong, Yinping Chang, Zhengbo Liu, Rui Wang, Xingxing Lin, Zhenzhen Zhou, Mingwei Lu, Cuiping Liu, and Erbao Liu

Subjects
rice, flag leaf shape, genome-wide association study, candidate genes, favorable haplotypes, Agriculture
Abstract

The shape of the rice flag leaf affects rice yield. Therefore, the detection of quantitative trait loci (QTLs) and alleles related to rice flag leaf shape is of great significance for rice yield improvement. Therefore, in 2019 and 2020, we carried out a genome-wide association study of flag leaf length (FLL), flag leaf width (FLW), flag leaf length–width ratio (FLR), and flag leaf area (FLA), considering 1.3 million single-nucleotide polymorphisms (SNPs) in 173 rice accessions, in order to investigate the effects of various genes on flag leaf shape. An abundance of phenotypic variation was found, with respect to the four flag leaf shape parameters of these accessions. We identified one significant SNP position associated with FLL and FLR on chromosome 5 and one significant SNP position associated with FLW on chromosome 2, which were detected in both of the two years of the study period through general linear model (GLM) and mixed linear model (MLM). Furthermore, three candidate genes—LOC_Os02g56760, LOC_Os05g34380, and LOC_Os05g34600—were found to possibly be significantly related to flag leaf shape in rice. Haplotype analysis indicated that LOC_Os05g34380 is highly associated with flag leaf length and flag leaf length–width ratio, LOC_Os05g34600 is highly associated with flag leaf length, and LOC_Os02g56760 is highly associated with flag leaf width. Our results provide important genetic information for the molecular improvement of rice flag leaf shape, laying the foundation for further cloning and molecular-assisted breeding of flag leaf genes.

Published
2022
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12. Detection of QTLs for Plant Height Architecture Traits in Rice (Oryza sativa L.) by Association Mapping and the RSTEP-LRT Method

Author

Hélder Manuel Sitoe, Yuanqing Zhang, Siqi Chen, Yulong Li, Mehtab Ali, Ognigamal Sowadan, Benjamin Karikari, Erbao Liu, Xiaojing Dang, Hujun Qian, and Delin Hong

Subjects
plant height and component traits, favorable alleles, elongated internodes, chromosome segment substitution lines, natural population, Oryza sativa, Botany, QK1-989
Abstract

Plant height (PH) and its component traits are critical determinants of lodging resistance and strongly influence yield in rice. The genetic architecture of PH and its component traits were mined in two mapping populations. In the natural population composed of 504 accessions, a total of forty simple sequence repeat (SSR) markers associated with PH and its component traits were detected across two environments via association mapping. Allele RM305-210 bp on chromosome 5 for PH had the largest phenotypic effect value (PEV) (−51.42 cm) with a reducing effect. Allele RM3533-220 bp on chromosome 9 for panicle length and allele RM264-120 bp on chromosome 8 for the length of upper first elongated internode (1IN) showed the highest positive PEV. Among the elongated internodes with negative effects being desirable, the allele RM348-130 bp showed the largest PEV (−7.48 cm) for the length of upper second elongated internode. In the chromosome segment substitution line population consisting of 53 lines, a total of nine QTLs were detected across two environments, with the phenotypic variance explained (PVE) ranging 10.07–28.42%. Among the detected QTLs, q1IN-7 explained the largest PVE (28.42%) for the 1IN, with an additive of 5.31 cm. The favorable allele RM257-125 bp on chromosome 9 for the 1IN increasing was detected in both populations. The favorable alleles provided here could be used to shape PH architecture against lodging.

Published
2022
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13. Identification of putative markers linked to grain plumpness in rice (Oryza sativa L.) via association mapping

Author

Erbao Liu, Siyuan Zeng, Xiangong Chen, Xiaojing Dang, Lijun Liang, Hui Wang, Zhiyao Dong, Yang Liu, and Delin Hong

Subjects
Rice, Grain plumpness, Association mapping, Genetic architecture, Elite allele, Genetics, QH426-470
Abstract

Abstract Background Poor grain plumpness (GP) is one of the main constraints to reaching the yield potential of hybrid rice. Results In this study, the GP of 177 rice varieties was investigated in three locations across 2 years. By combining the genotype data of 261 simple sequence repeat (SSR) markers, association mapping was conducted to identify the marker-GP association loci. Among 31 marker-GP association loci detected in two or more environments and determined using general linear model (GLM) analyses, seven association loci were also detected using mixed linear model (MLM) analyses. The seven common loci detected by the two analytical methods were located on chromosomes 2, 3 (2), 7, 8 and 12 (2) and explained 7.24~22.28% of the variance. Of these 7 association loci, five markers linked to GP were newly detected: RM5340 on Chr2, RM5480 and RM148 on Chr3, RM1235 on Chr8, and RM5479 on Chr12. Conclusions Five marker-GP association loci were newly detected using both the GLM and MLM analytical methods. Elite allele RM505-170 bp had the highest average phenotypic effect on increasing the GP, and the typical carrier variety was ‘Maozitou’. Based on the distribution of the elite alleles among the carrier varieties, the top 10 parental combinations for improving the GP in rice via cross-breeding were predicted.

Published
2017
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14. Detection of QTLs for Outcrossing-Related Traits in CSSL Population Derived from Primitive Japonica Accession Ludao in the Genetic Background of O. sativa spp. Japonica Restorer C-bao Using RSTEP-LRT Method

Author

Lal Bux, Dalu Li, Muhammad Faheem, Nour Ali, Muzafar Hussain Sirohi, Mehtab Ali, Ali Nawaz Kumbhar, Moaz Salah Eltahawy, Guocan Wu, Erbao Liu, Xiaojing Dang, and Delin Hong

Subjects
oryza sativa, flag leaf length, flag leaf width, flag leaf angle, panicle neck length, qtls, Agriculture
Abstract

The outcrossing traits in rice (Oryza sativa L.) affect the yield of hybrid seed production. Using a cytoplasmic male sterile (CMS) line with good outcrossing traits, such as short flag leaf length (FLL), narrow flag leaf width (FLW), wide flag leaf angle (FLA), and elongated panicle neck length (PNL), for hybrid rice seed production, it is possible to avoid the procedure of cutting flag leaves and make the supplementary pollination feasible by machine. In this study, a japonica restorer C-bao as the receptor parent and a primitive japonica accession Ludao as the donor parent were used to construct a chromosome segment substitution line (CSSL) population. The CSSL population was used to detect quantitative trait loci (QTLs) for the four outcrossing traits using a likelihood ratio test based on the stepwise regression (RSTEP-LRT) method. The CSSL population constructed consisted of 163 lines covering 90.7% of the donor genome. Among the seven QTLs detected in the CSSL population, four QTLs were detected in both years. qFLL-4 explained 6.70% of the two-year-averaged phenotypic variance, and the alleles from Ludao decreased FLL 5.1 cm. qFLA-1.1 and qFLA-1.2 explained 7.85% and 21.29% of the 2-year-averaged phenotypic variance respectively, and the alleles from Ludao increased FLA 17.38° and 31.50°. qPNL-8 explained 8.87% of the 2-year-averaged phenotypic variance, and the alleles from Ludao increased PNL 4.44 cm. These favorable alleles identified could be used to improve the outcrossing traits of parents for hybrid rice seed production in rice.

Published
2019
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15. Favorable Marker Alleles for Panicle Exsertion Length in Rice (Oryza sativa L.) Mined by Association Mapping and the RSTEP-LRT Method

Author

Xiaojing Dang, Bingjie Fang, Xiangong Chen, Dalu Li, Ognigamal Sowadan, Zhiyao Dong, Erbao Liu, Dong She, Guocan Wu, Yinfeng Liang, and Delin Hong

Subjects
chromosome segment substitution line population, favorable marker allele, hybrid seed production, natural population, Oryza sativa, panicle exsertion length, Plant culture, SB1-1110
Abstract

The panicle exsertion length (PEL) in rice (Oryza sativa L.) is an important trait for hybrid seed production. We investigated the PEL in a chromosome segment substitution line (CSSL) population consisting of 66 lines and a natural population composed of 540 varieties. In the CSSL population, a total of seven QTLs for PEL were detected across two environments. The percentage of phenotypic variance explained (PVE) ranged from 10.22 to 50.18%, and the additive effect ranged from −1.77 to 6.47 cm. Among the seven QTLs, qPEL10.2 had the largest PVE, 44.05 and 50.18%, with an additive effect of 5.91 and 6.47 cm in 2015 and in 2016, respectively. In the natural population, 13 SSR marker loci were detected that were associated with PEL in all four environments, with the PVE ranging from 1.20 to 6.26%. Among the 13 loci, 7 were novel. The RM5746-170 bp allele had the largest phenotypic effect (5.11 cm), and the typical carrier variety was Qiaobinghuang. An RM5620-RM6100 region harboring the EUI2 locus on chromosome 10 was detected in both populations. The sequencing results showed that the accessions with a shorter PEL contained the A base, while the accessions with a longer PEL contained the G base at the 1,475 bp location of the EUI2 gene.

Published
2017
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16. QTL detection and elite alleles mining for stigma traits in Oryza sativa by association mapping

Author

Xiaojing Dang, Erbao Liu, Qiangming Liu, Caleb Manamik Breria, Yinfeng Liang, and Delin Hong

Subjects
Oryza sativa, Genome-wide association mapping, QTL detection, Elite allele, Stigma traits, Plant culture, SB1-1110
Abstract

Stigma traits are very important for hybrid seed production in Oryza sativa, which is a self-pollinated crop; however, the genetic mechanism controlling the traits is poorly understood. In this study, we investigated the phenotypic data of 227 accessions across two years and assessed their genotypic variation with 249 simple sequence repeat (SSR) markers. By combining phenotypic and genotypic data, a genome-wide association (GWA) map was generated. Large phenotypic variations in stigma length (STL), stigma brush-shaped part length (SBPL) and stigma non-brush-shaped part length (SNBPL) were found. Significant positive correlations were identified among stigma traits. In total, 2,072 alleles were detected among 227 accessions, with an average of 8.3 alleles per SSR locus. GWA mapping detected 6 quantitative trait loci (QTLs) for the STL, 2 QTLs for the SBPL and 7 QTLs for the SNBPL. Eleven, 5, and 12 elite alleles were found for the STL, SBPL and SNBPL, respectively. Optimal cross designs were predicted for improving the target traits. The detected genetic variation in stigma traits and QTLs provides helpful information for cloning candidate STL genes and breeding rice cultivars with longer STLs in the future.

Published
2016
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17. Fine Mapping and Candidate Gene Analysis of qSTL3, a Stigma Length-Conditioning Locus in Rice (Oryza sativa L.).

Author

Qiangming Liu, Jiancai Qin, Tianwei Li, Erbao Liu, Dejia Fan, Wisdom Mawuli Edzesi, Jianhai Liu, Jianhua Jiang, Xiaoli Liu, Lianjie Xiao, Linglong Liu, and Delin Hong

Subjects
Medicine, Science
Abstract

The efficiency of hybrid seed production can be improved by increasing the percentage of exserted stigma, which is closely related to the stigma length in rice. In the chromosome segment substitute line (CSSL) population derived from Nipponbare (recipient) and Kasalath (donor), a single CSSL (SSSL14) was found to show a longer stigma length than that of Nipponbare. The difference in stigma length between Nipponbare and SSSL14 was controlled by one locus (qSTL3). Using 7,917 individuals from the SSSL14/Nipponbare F2 population, the qSTL3 locus was delimited to a 19.8-kb region in the middle of the short arm of chromosome 3. Within the 19.8-kb chromosome region, three annotated genes (LOC_Os03g14850, LOC_Os03g14860 and LOC_Os03g14880) were found in the rice genome annotation database. According to gene sequence alignments in LOC_Os03g14850, a transition of G (Nipponbare) to A (Kasalath) was detected at the 474-bp site in CDS. The transition created a stop codon, leading to a deletion of 28 amino acids in the deduced peptide sequence in Kasalath. A T-DNA insertion mutant (05Z11CN28) of LOC_Os03g14850 showed a longer stigma length than that of wild type (Zhonghua 11), validating that LOC_Os03g14850 is the gene controlling stigma length. However, the Kasalath allele of LOC_Os03g14850 is unique because all of the alleles were the same as that of Nipponbare at the 474-bp site in the CDS of LOC_Os03g14850 among the investigated accessions with different stigma lengths. A gene-specific InDel marker LQ30 was developed for improving stigma length during rice hybrid breeding by marker-assisted selection.

Published
2015
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18. Time-course association mapping of the grain-filling rate in rice (Oryza sativa L.).

Author

Erbao Liu, Xiaoli Liu, Siyuan Zeng, Kaiming Zhao, Changfeng Zhu, Yang Liu, Manamik Caleb Breria, Baojuan Zhang, and Delin Hong

Subjects
Medicine, Science
Abstract

Detecting quantity trait locus (QTLs) and elite alleles that are associated with grain-filling rate (GFR) in rice is essential for promoting the utilization of hybrid japonica rice and improving rice yield. Ninety-five varieties including 58 landraces and 37 elite varieties from the core germplasm collection were genotyped with 263 simple sequence repeat (SSR) markers. The GFR of the 95 varieties was evaluated at five stages, 7, 14, 21, 28 and 35 days after flowering (DAF) both in 2011 and 2012. We found abundant phenotypic and genetic diversity in the studied population. A population structure analysis identified seven subpopulations. A linkage disequilibrium (LD) analysis indicated that the levels of LD ranged from 60.3 cM to 84.8 cM and artificial selection had enhanced the LD. A time-course association analysis detected 31 marker-GFR associations involving 24 SSR markers located on chromosomes 1, 2, 3, 4, 5, 6, 8, 9, 11 and 12 of rice at five stages. The elite alleles for high GFR at each stage were detected. Fifteen excellent parental combinations were predicted, and the best parental combination 'Nannongjing62401×Laolaihong' could theoretically increase 4.086 mg grain(-1) d(-1) at the five stages. Our results demonstrate that the time-course association mapping for GFR in rice could detect elite alleles at different filling stages and that these elite alleles could be used to improve the GFR via pyramiding breeding.

Published
2015
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19. Effect of the Codeposition Ions on Structural and Tribological Properties of Electro-Brush Plated Coating

Author

Xiufang Cui, Jinggao Zhong, Dingding Hou, Erbao Liu, Guo Jin, and Qingfen Li

Subjects
Mechanical engineering and machinery, TJ1-1570
Abstract

The effects of the codeposition ions on structural and tribological properties of electro-brush plated coatings were investigated. The microstructure and phase structure were studied with scanning electron microscope (SEM), X-ray photoelectron spectroscopy (XPS), and X-ray diffraction (XRD). The hardness and tribological properties of several coatings with different kind of codeposition ions were studied. Results show that among the coatings with different FeCl 2 contents in electrolyte, the Fe400 coating has the best surface property. When proper chemical ion W codeposited with iron ion is added, the hardness of the coatings is improved obviously and the Fe-W II coating has the best properties. When proper element of Cu is added, the hardness and tribological properties of the Fe-W-Cu coatings are also improved. Besides, the interface bond strength between the coating and the substrate is improved obviously, and the Fe-W-Cu II coating has the best properties.

Published
2013
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20. Performance Evolution of Phytic Acid Conversion Film in the Forming Process

Author

Xiufang Cui, Lili Lin, Erbao Liu, Guo Jin, and Jie Jin

Subjects
Mechanical engineering and machinery, TJ1-1570
Abstract

To improve conversion film techniques, control film properties and improve quality of following techniques, in this study, the environment-friendly phytic conversion films were deposited on AZ91D magnesium alloy. The performance evolution of the film during the forming process such as mechanical property, residual stress, corrosion resistance, micromorphology, composition, and roughness was investigated by nanomechanical testing system, electrochemical workstation, scanning electron microscope, Auger electron spectroscopy, and atomic force microscope. The results indicate that, in the forming process, the changes of micromorphology, roughness, mechanical property, and corrosion property are closely related to the variation of elements and residual stress. With the prolonging of film formation time, the difference between film elements and substrate elements gradually increases, and the residual stress first increases then decreases. When the film formation time is about 30 min, the film begins to crack and the residual stress is released, which leads to the decrease of mechanical property and corrosion resistance of the film.

Published
2013
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24. Genetic Dissection of Salt Tolerance and Yield Traits of Geng (japonica) Rice by Selective Subspecific Introgression

Author

Meng, Simin Li, Ting Feng, Chenyang Zhang, Fanlin Zhang, Hua Li, Yanjun Chen, Lunping Liang, Chaopu Zhang, Wei Zeng, Erbao Liu, Yingyao Shi, Min Li, and Lijun

Subjects
salt tolerance, selection, correlated phenotypic responses, QTL clusters, rice
Abstract

Salinity is a major factor limiting rice productivity, and developing salt-tolerant (ST) varieties is the most efficient approach. Seventy-eight ST introgression lines (ILs), including nine promising lines with improved ST and yield potential (YP), were developed from four BC2F4 populations from inter-subspecific crosses between an elite Geng (japonica) recipient and four Xian (indica) donors at the Institute of Crop Sciences, Chinese Academy of Agricultural Sciences. Genome-wide characterization of donor introgression identified 35 ST QTLs, 25 of which harbor 38 cloned ST genes as the most likely QTL candidates. Thirty-four are Xian-Geng differentiated ones with the donor (Xian) alleles associated with ST, suggesting differentiated responses to salt stress were one of the major phenotypic differences between the two subspecies. At least eight ST QTLs and many others affecting yield traits were identified under salt/non-stress conditions. Our results indicated that the Xian gene pool contains rich ‘hidden’ genetic variation for developing superior Geng varieties with improved ST and YP, which could be efficiently exploited by selective introgression. The developed ST ILs and their genetic information on the donor alleles for ST and yield traits would provide a useful platform for developing superior ST and high-yield Geng varieties through breeding by design in the future.

Published
2023
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25. Effect of heat and cryogenic treatments on the microstructure and properties of YF3 modified NiTi-Si laser cladding coatings

Author

Wennan Su, Chi Zhang, Xiufang Cui, Guo Jin, Changhao Liu, Erbao Liu, Jian Li, Haonan Zhao, Boyu Cao, and Haoliang Tian

Subjects
History, Polymers and Plastics, Business and International Management, Electrical and Electronic Engineering, Industrial and Manufacturing Engineering, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials
Published
2023

27. SYL3-k increases style length and yield of F1 seeds via enhancement of endogenous GA4 content in Oryza sativa L. pistils

Author

Zhiyao Dong, Yanhui Li, Erbao Liu, Zhilan Fan, Dong She, Shangshang Zhu, Qiangming Liu, Yulong Li, Dalu Li, Bingjie Fang, Siqi Chen, Xiaoxiao Hu, Yuanqing Zhang, Xiao-Jing Dang, Delin Hong, Hui Wang, and Jianhua Jiang

Subjects
Cloning, Gynoecium, Oryza sativa, Haplotype, food and beverages, MADS Domain Proteins, Oryza, Endogeny, Outcrossing, Locus (genetics), Flowers, General Medicine, Biology, Gibberellins, Horticulture, Plant Growth Regulators, Genetics, Original Article, Allele, Agronomy and Crop Science, Plant Proteins, Biotechnology
Abstract

Key message SYL3-k allele increases the outcrossing rate of male sterile line and the yield of hybrid F1 seeds via enhancement of endogenous GA4 content in Oryza sativa L. pistils. The change in style length might be an adaptation of rice cultivation from south to north in the northern hemisphere. Abstract The style length (SYL) in rice is one of the major factors influencing the stigma exertion, which affects the outcross rate of male sterile line and the yield of hybrid F1 seeds. However, the biological mechanisms underlying SYL elongation remain elusive. Here, we report a map-based cloning and characterisation of the allele qSYL3-k. The qSYL3-k allele encodes a MADS-box family transcription factor, and it is expressed in various rice organs. The qSYL3-k allele increases SYL via the elongation of cell length in the style, which is associated with a higher GA4 content in the pistil. The expression level of OsGA3ox2 in pistils with qSYL3-k alleles is significantly higher than that in pistils with qSYL3-n allele on the same genome background of Nipponbare. The yield of F1 seeds harvested from plants with 7001SSYL3−k alleles was 16% higher than that from plants with 7001SSYL3−n allele. The sequence data at the qSYL3 locus in 136 accessions showed that alleles containing the haplotypes qSYL3AA, qSYL3AG, and qSYL3GA increased SYL, whereas those containing the haplotype qSYL3GG decreased it. The frequency of the haplotype qSYL3GG increases gradually from the south to north in the northern hemisphere. These findings will facilitate improvement in SYL and yield of F1 seeds henceforward.

Published
2021

32. Association Mapping of Thousand Grain Weight using SSR and SNP Markers in Rice (Oryza sativa L.) Across Six Environments

Author

Delin Hong, Jianjun Sun, Xiangong Chen, Yufeng Yang, Ya Wang, Xiaojing Dang, Guohong Yang, Haiqing Yin, and Erbao Liu

Subjects
0106 biological sciences, 0301 basic medicine, Genetics, Oryza sativa, food and beverages, Plant Science, Quantitative trait locus, Best linear unbiased prediction, Biology, 01 natural sciences, 03 medical and health sciences, 030104 developmental biology, Trait, SNP, Indel, Association mapping, 010606 plant biology & botany, Panicle
Abstract

Thousand grain weight (TGW) is an important determinant of rice yield, and correlates with grain size, plumpness and grain number per panicle. In rice, there are fewer association mapping studies relating grain weight traits using both SSR and SNP markers. In this study, in order to find robust SSR markers associated with TGW trait and mine elite accessions in rice, we investigated the TGW trait across six environments using a natural population consisted of 462 accessions, and then performed association mapping using both SSR and SNP markers. Using the six datasets from the six environments and their best linear unbiased estimator, we identified eight TGW associated SSR markers, with three environmentally stable and one newly found, on five chromosomes. The associated markers have genetic effect from 3.44% to 20.84%, and two of them carry stable elite allele with positive effect across different environments. Candidate interval association mapping using re-sequencing derived SNP/InDel markers further confirms the TGW-SSR association, and also suggests that 3 TGW-SSR associations were high confident in intervals of size from 176 to 603 kb. These results not only shed more lights on the genetics of TGW trait, but also suggest that the multi-allelic SSR markers should be used as an alternative power tool in gene or QTL mapping.

Published
2021

33. OsSYL2 AA, an allele identified by gene‐based association, increases style length in rice (Oryza sativa L.)

Author

Yanhui Li, Qiangming Liu, Dong She, Zhilan Fan, Shangshang Zhu, Xiaoxiao Hu, Delin Hong, Siqi Chen, Yulong Li, Bingjie Fang, Dalu Li, Yang Yang, Yufeng Wu, Erbao Liu, Xiaojing Dang, Yuanqing Zhang, Xiangong Chen, Hui Wang, Zexu Wu, and Jie Ji

Subjects
0106 biological sciences, 0301 basic medicine, stigma characteristics, Single-nucleotide polymorphism, Outcrossing, Genome-wide association study, Plant Science, Flowers, Biology, Genes, Plant, 01 natural sciences, Polymorphism, Single Nucleotide, Linkage Disequilibrium, 03 medical and health sciences, Genetics, natural variation, Allele, Gene, Allele frequency, Alleles, genome‐wide association study, Oryza sativa, food and beverages, Oryza, Cell Biology, Original Articles, favorable alleles, Hybrid seed, 030104 developmental biology, Genetics, Population, Original Article, 010606 plant biology & botany, hybrid rice seed production, Genome-Wide Association Study
Abstract

SUMMARY Stigma characteristics are important factors affecting the seed yield of hybrid rice per unit area. Natural variation of stigma characteristics has been reported in rice, but the genetic basis for this variation is largely unknown. We performed a genome‐wide association study on three stigma characteristics in six environments using 1.3 million single‐nucleotide polymorphism (SNPs) characterized in 353 diverse accessions of Oryza sativa. An abundance of phenotypic variation was present in the three stigma characteristics of these collections. We identified four significant SNPs associated with stigma length, 20 SNPs with style length (SYL), and 17 SNPs with the sum of stigma and style length, which were detected repeatedly in more than four environments. Of these SNPs, 28 were novel. We identified two causal gene loci for SYL, OsSYL3 and OsSYL2; OsSYL3 was co‐localized with the grain size gene GS3. The SYL of accessions carrying allele OsSYL3AA was significantly longer than that of those carrying allele OsSYL3CC. We also demonstrated that the outcrossing rate of female parents carrying allele OsSYL2AA increased by 5.71% compared with that of the isogenic line carrying allele OsSYL2CC in an F1 hybrid seed production field. The allele frequencies of OsSYL3AA and OsSYL2AA decreased gradually with an increase in latitude in the Northern Hemisphere. Our results should facilitate the improvement in stigma characteristics of parents of hybrid rice., Significance Statement The utilization of heterosis in rice is an effective strategy to enhance the grain yield. However, this entails the production of F1 hybrid seeds every year. The yield of F1 hybrid seeds is affected by stigma characteristics. The cloning of OsSYL2AA filled a gap in the genetic study of style length and could be used for improving stigma characteristics to increase the yield of F1 seeds.

Published
2020

34. Mining Favorable Alleles for Rice Coleoptile Elongation Length Sensitivity to Exogenous Gibberellin Under Submergence Condition

Author

Moaz S. Eltahawy, Xiaojing Dang, Erbao Liu, Delin Hong, Dina Abdulmajid, and Nour Ali

Subjects
0106 biological sciences, 0301 basic medicine, food and beverages, Locus (genetics), Plant Science, Biology, 01 natural sciences, 03 medical and health sciences, Horticulture, 030104 developmental biology, Coleoptile, Germination, Genotype, Gibberellin, Cultivar, Allele, Elongation, Agronomy and Crop Science, 010606 plant biology & botany
Abstract

High sensitivity of rice coleoptile elongation length to exogenous gibberellin is a beneficial trait to utilize superior rice cultivars that could not be used originally under water direct-seeded conditions. In the present study, we mined favorable alleles for the trait by combining the phenotypic data of 358 rice accessions with their genotype data of 262 simple sequence repeat (SSR) markers via genome wide association mapping method. Totally, 17 SSR marker loci significantly associated with gibberellin sensitivity index (GSI) of coleoptile elongation length under 10 cm depth of water, were detected by general linear model and mixed linear model across two years, with percent phenotypic variation explained larger than 10%. Twenty nine favorable alleles for GSI on the 17 loci were discovered with phenotypic effect value (PEV) larger than 0.1 cm/cm and RM6869-110 bp showed the largest PEV (0.27 cm/cm). Based on PEV of marker-alleles having positive effects on GSI, seven parental combinations were predicted to improve GSI. In addition, 7 loci for GSI were co-located with loci associated with coleoptile elongation length per se, and one locus (RM1182 on chromosome 5) was co-located with that associated with coleoptile elongation length after gibberellin-soaked seed, under germination condition of 10 cm depth of water. These favorable allele(s) could be used to improve two target traits simultaneously.

Published
2020

38. Favorable Alleles of GRAIN-FILLING RATE1 Increase the Grain-Filling Rate and Yield of Rice

Author

Siyuan Zeng, Hui Xie, Dalu Li, Delin Hong, Qiang-ming Liu, Xiaoli Liu, Zhiyao Dong, Yang Liu, Erbao Liu, Guocan Wu, Shangshang Zhu, Xiaoxiao Hu, Xiaojing Dang, and Kai-Ming Zhao

Subjects
0106 biological sciences, Genetics, Oryza sativa, biology, Physiology, RuBisCO, Plant genetics, food and beverages, Plant Science, Quantitative trait locus, 01 natural sciences, Complementation, biology.protein, Allele, Gene, 010606 plant biology & botany, Hybrid
Abstract

Hybrid rice (Oryza sativa) has been cultivated commercially for 42 years in China. However, poor grain filling still limits the development of hybrid japonica rice. We report here the map-based cloning and characterization of the GRAIN-FILLING RATE1 (GFR1) gene present at a major-effect quantitative trait locus. We elucidated and confirmed the function of GFR1 via genetic complementation experiments and clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR-associated protein 9 (Cas9) gene editing in combination with genetic and molecular biological analyses. In addition, we conducted haplotype association analysis to mine the elite alleles of GFR1 among 117 rice accessions. We observed that GFR1 was constitutively expressed and encoded a membrane-localized protein. The allele of the rice accession Ludao (GFR1Ludao) improved the grain-filling rate of rice by increasing Rubisco initial activity in the Calvin cycle. Moreover, the increased expression of the cell wall invertase gene OsCIN1 in the near isogenic line NIL-GFR1Ludao promoted the unloading of Suc during the rice grain-filling stage. A yeast two-hybrid assay indicated that the Rubisco small subunit interacts with GFR1, possibly in the regulation of the rice grain-filling rate. Evaluation of the grain-filling rate and grain yield of F1 plants harboring GFR1Ludao and the alleles of 20 hybrids widely cultivated commercially confirmed that favorable alleles of GFR1 can be used to further improve the grain-filling rate of hybrid japonica rice.

Published
2019

39. Investigations on fatigue behavior and surface damage of Cu film by nano impact and molecular dynamics simulation

Author

Zhi-guo Xing, Guo Jin, Hai-dou Wang, Bin-shi Xu, Erbao Liu, Jin-na Liu, and Xiufang Cui

Subjects
010302 applied physics, Materials science, Delamination, 02 engineering and technology, Surfaces and Interfaces, General Chemistry, Sputter deposition, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Surfaces, Coatings and Films, Indentation, 0103 physical sciences, Nano, Service life, Materials Chemistry, Dislocation, Thin film, Composite material, Deformation (engineering), 0210 nano-technology
Abstract

The fracture resistance of nanoscale MEMS films under high frequency impact seriously influences its service life. Nano impact test is a reliable technique to evaluate the fatigue fracture resistance of films by simulating the dynamic cyclic loading conditions. In this paper, a kind of Cu film was prepared by magnetron sputtering. The effects of loading parameters and indenter size on the fatigue damage behavior were studied for the Cu films during by nano impact test technique. The dislocation propagation and crack initiation during the nano impact process were also analyzed by molecular dynamics simulation. The results show that: Nano impact failure of Cu film can be divided into three stages and the main failure forms are cracks and delamination. The increase of the indenter radius leads to the increase of fatigue indentation size. The deformation range and damage accumulation degree of thin film material also increased correspondingly. With the increase of nano impact loading rate, the film material suffered more momentum from the indenter. The fatigue damage energy accumulation accelerates the damage.

Published
2019

40. Influence of electromagnetic stirring on microstructure and wear resistance of plasma arc deposited shape memory alloy

Author

Xiufang Cui, Xiangru Feng, Erbao Liu, Meiling Dong, Guo Jin, Lipeng Jiang, Bingwen Lu, and Dan Zhang

Subjects
010302 applied physics, Materials science, Alloy, ComputerApplications_COMPUTERSINOTHERSYSTEMS, 02 engineering and technology, Surfaces and Interfaces, General Chemistry, Shape-memory alloy, engineering.material, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Microstructure, 01 natural sciences, Surfaces, Coatings and Films, Wear resistance, Plasma arc welding, Electromagnetic stirring, 0103 physical sciences, Homogeneity (physics), Materials Chemistry, engineering, Composite material, 0210 nano-technology
Abstract

In order to obtain metallurgical shape memory alloy with a better quality, electro-magnetic stirring (EMS) technology is selected as an aiding method during plasma arc deposition (PAD) process. In this work, Ti51Ni49 alloys were successfully produced by EMS-assisted PAD technology. Influence of EMS on the microstructure, phase transformation behavior, micro-hardness and wear resistance of PAD TiNi alloy have been systematically investigated. The PAD TiNi alloy is composed of TiNi coarse columnar dendrites with a certain number of Ti2Ni phases distributed in the inter-dendritic regions. Under the action of EMS, TiNi coarse columnar dendrites transform into fine non-dendrites or spheroid grains and the homogeneity of microstructures improves significantly. The implementation of EMS during PAD do not change the path of phase transformation, but improve the degree of phase transformations and reduce the transformation temperatures of PAD TiNi alloy. The EMS-PAD TiNi alloy possesses better dry wear resistance than the PAD TiNi alloy, which can be attributed to the higher degree of pseudo-elasticity of TiNi phases and strengthening of Ti2Ni phases.

Published
2019

43. Influence of microstructure on phase transformation behavior and mechanical properties of plasma arc deposited shape memory alloy

Author

Erbao Liu, Yang Li, Xiangru Feng, Bingwen Lu, Meiling Dong, Xiufang Cui, Guo Jin, and Haidou Wang

Subjects
010302 applied physics, Equiaxed crystals, Materials science, Mechanical Engineering, Alloy, Nucleation, 02 engineering and technology, Shape-memory alloy, engineering.material, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Microstructure, 01 natural sciences, Plasma arc welding, Mechanics of Materials, 0103 physical sciences, Pseudoelasticity, engineering, General Materials Science, Composite material, 0210 nano-technology
Abstract

Recently, additive manufacturing have gradually become an attractive processing technology for TiNi alloy. In this work, the Ti50Ni50 alloy was successfully prepared by plasma arc deposition (PAD) technology. The microstructures, phase transformation characteristics and mechanical properties were investigated in detail. The PAD-TiNi alloy mainly comprised of TiNi (B2), TiNi (B19’) and Ti2Ni phases. The TiNi cellular crystals, TiNi dendrite crystals and TiNi equiaxed crystals were presented at the bottom, middle and top area of PAD-TiNi alloys, respectively. Some irregular Ti2Ni phases were distributed in the inter-dendritic areas. The peritectic reaction of L (Ti) + TiNi →Ti2Ni led to the formation of irregular Ti2Ni phases. The coherence of Ti2Ni phases and TiNi matrix phases drove the two-step phase transformation (B2→ R → B19’) during the cooling process. The as-deposited samples showed favorable hardness and high strength, especially possessing special quasi-linear superelasticity (up to 3.8%) with narrow hysteresis, which was derived from the quick appearance and disappearance of deformation microtwins under loading and unloading condition. The newly formed interface between Ti2Ni precipitates and TiNi matrix phase offered the nucleation sites for deformation microtwins and promoted the formation of microtwins.

Published
2018

44. Detection of QTLs for Outcrossing-Related Traits in CSSL Population Derived from Primitive Japonica Accession Ludao in the Genetic Background of O. sativa spp. Japonica Restorer C-bao Using RSTEP-LRT Method

Author

Mehtab Ali, Nour Ali, Ali Nawaz Kumbhar, Guocan Wu, Muhammad Faheem, Xiaojing Dang, Moaz S. Eltahawy, Muzafar Hussain Sirohi, Dalu Li, Delin Hong, Erbao Liu, and Lal Bux

Subjects
0106 biological sciences, Population, Outcrossing, flag leaf width, Quantitative trait locus, 01 natural sciences, flag leaf angle, Japonica, lcsh:Agriculture, 03 medical and health sciences, panicle neck length, flag leaf length, oryza sativa, Allele, education, 030304 developmental biology, Panicle, 0303 health sciences, education.field_of_study, Oryza sativa, biology, fungi, lcsh:S, food and beverages, biology.organism_classification, Hybrid seed, Horticulture, qtls, Agronomy and Crop Science, 010606 plant biology & botany
Abstract

The outcrossing traits in rice (Oryza sativa L.) affect the yield of hybrid seed production. Using a cytoplasmic male sterile (CMS) line with good outcrossing traits, such as short flag leaf length (FLL), narrow flag leaf width (FLW), wide flag leaf angle (FLA), and elongated panicle neck length (PNL), for hybrid rice seed production, it is possible to avoid the procedure of cutting flag leaves and make the supplementary pollination feasible by machine. In this study, a japonica restorer C-bao as the receptor parent and a primitive japonica accession Ludao as the donor parent were used to construct a chromosome segment substitution line (CSSL) population. The CSSL population was used to detect quantitative trait loci (QTLs) for the four outcrossing traits using a likelihood ratio test based on the stepwise regression (RSTEP-LRT) method. The CSSL population constructed consisted of 163 lines covering 90.7% of the donor genome. Among the seven QTLs detected in the CSSL population, four QTLs were detected in both years. qFLL-4 explained 6.70% of the two-year-averaged phenotypic variance, and the alleles from Ludao decreased FLL 5.1 cm. qFLA-1.1 and qFLA-1.2 explained 7.85% and 21.29% of the 2-year-averaged phenotypic variance respectively, and the alleles from Ludao increased FLA 17.38&deg, and 31.50&deg, qPNL-8 explained 8.87% of the 2-year-averaged phenotypic variance, and the alleles from Ludao increased PNL 4.44 cm. These favorable alleles identified could be used to improve the outcrossing traits of parents for hybrid rice seed production in rice.

Published
2019

45. Voltammetric Determination of Serine Using L-Cysteine Modified Platinum Electrode and Brief Exploration from the Theoretical Perspective

Author

Jing Li, Erbao Liu, Bingchun Xue, and Yan Fu

Subjects
Detection limit, 010401 analytical chemistry, Inorganic chemistry, chemistry.chemical_element, 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry, Adsorption, Linear range, chemistry, Electrode, Electrochemistry, Cyclic voltammetry, 0210 nano-technology, Platinum, Voltammetry, Chemically modified electrode
Abstract

A new method for the detection of serine was described using L-cysteine chemically modified electrode, which was prepared by cyclic voltammetry. The factors, such as pH, scan rate, and soaking time for the experimental process were discussed. Under the optimal conditions, the linear range for serine concentration was 3×10−7∼8×10−5 mol L−1, the detection limit was 2.34×10−7 mol L−1 (S/N=3), and the relative standard deviation was 2.14 % (n=10) for 3×10−7 mol L−1 serine solution. The method was applied to the detection of serine in apple cider vinegar sample with a recovery of 97.5 %–101.9 %. To further discuss the change of the property of platinum surface on atomic level, theoretical calculations were carried out. The change of adsorption energy indicated that the possible interaction of Pt and cysteine was O−C−O bridge adsorption. The analysis about the density of states (DOS) of the system and pseudo band gap showed an increase in the Pt surface activity.

Published
2018

46. Fracture behavior of high-entropy alloy coating by in-situ TEM tensile testing

Author

Yang Li, Bingwen Lu, Xiufang Cui, Erbao Liu, Meiling Dong, Zhaobing Cai, and Guo Jin

Subjects
010302 applied physics, Materials science, Mechanical Engineering, Stress–strain curve, Metals and Alloys, Cleavage (crystal), 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Flexural strength, Mechanics of Materials, 0103 physical sciences, Materials Chemistry, Fracture (geology), Forensic engineering, Deformation (engineering), Composite material, Elongation, Dislocation, 0210 nano-technology, Tensile testing
Abstract

The fracture behavior of high-profile high-entropy alloy coating was characterized by in-situ TEM tensile testing. The samples for in-situ TEM tensile testing were obtained by FIB technology. The results show that irrelevant to phase constitution, the Young's module, fracture strength and ultimate elongation are measured as ∼107 GPa, ∼2.70 GPa and ∼2.6%, respectively. Transcrystalline fracture and cleavage fracture with the cleavage plane of {112} are observed evidentially and the evolution of the dislocation motion in the material could be directly connected with the fracture behavior from the recorded movies obtained by a Gatan CCD camera. The engineering stress-strain curve is nearly linearity, however, a slight deviation away from linearity could be noted in the end of engineering stress-strain curve, which is attributed that the extra elastic deformation results in part of continued deformation.

Published
2017

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