Your search keyword '"Yaying Ma"' showing total 18 results

1. Gene Regulatory Network Controlling Flower Development in Spinach (Spinacia oleracea L.)

Author

Yaying Ma, Wenhui Fu, Suyan Wan, Yikai Li, Haoming Mao, Ehsan Khalid, Wenping Zhang, and Ray Ming

Subjects

Spinacia oleracea L., dioecious, monoecious, floral development, transcriptomics, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Spinach (Spinacia oleracea L.) is a dioecious, diploid, wind-pollinated crop cultivated worldwide. Sex determination plays an important role in spinach breeding. Hence, this study aimed to understand the differences in sexual differentiation and floral organ development of dioecious flowers, as well as the differences in the regulatory mechanisms of floral organ development of dioecious and monoecious flowers. We compared transcriptional-level differences between different genders and identified differentially expressed genes (DEGs) related to spinach floral development, as well as sex-biased genes to investigate the flower development mechanisms in spinach. In this study, 9189 DEGs were identified among the different genders. DEG analysis showed the participation of four main transcription factor families, MIKC_MADS, MYB, NAC, and bHLH, in spinach flower development. In our key findings, abscisic acid (ABA) and gibberellic acid (GA) signal transduction pathways play major roles in male flower development, while auxin regulates both male and female flower development. By constructing a gene regulatory network (GRN) for floral organ development, core transcription factors (TFs) controlling organ initiation and growth were discovered. This analysis of the development of female, male, and monoecious flowers in spinach provides new insights into the molecular mechanisms of floral organ development and sexual differentiation in dioecious and monoecious plants in spinach.

Published

2024

2. Transcriptome analysis of sugarcane reveals rapid defense response of SES208 to Xanthomonas albilineans in early infection

Author

Yaying Ma, Hongying Yu, Yijing Lu, Sanji Gao, Mahpara Fatima, Ray Ming, and Jingjing Yue

Subjects

Saccharum spp., Xanthomonas albilineans, Leaf scald, RNA-Seq, Disease resistance, Botany, QK1-989

Abstract

Abstract Background Diseases are the major factor affecting the quality and yield of sugarcane during its growth and development. However, our knowledge about the factors regulating disease responses remain limited. The present study focuses on identifying genes regulating transcriptional mechanisms responsible for resistance to leaf scald caused by Xanthomonas albilineans in S. spontaneum and S. officinarum. Results After inoculation of the two sugarcane varieties SES208 (S. spontaneum) and LA Purple (S. officinarum) with Xanthomonas albilineans, SES208 exhibited significantly greater resistance to leaf scald caused by X. albilineans than did LA Purple. Using transcriptome analysis, we identified a total of 4323 and 1755 differentially expressed genes (DEGs) in inoculated samples of SES208 and LA Purple, respectively. Significantly, 262 DEGs were specifically identified in SES208 that were enriched for KEGG pathway terms such as plant-pathogen interaction, MAPK signaling pathway, and plant hormone signal transduction. Furthermore, we built a transcriptional regulatory co-expression network that specifically identified 16 and 25 hub genes in SES208 that were enriched for putative functions in plant-pathogen interactions, MAPK signaling, and plant hormone signal transduction. All of these essential genes might be significantly involved in resistance-regulating responses in SES208 after X. albilineans inoculation. In addition, we found allele-specific expression in SES208 that was associated with the resistance phenotype of SES208 when infected by X. albilineans. After infection with X. albilineans, a great number of DEGs associated with the KEGG pathways ‘phenylpropanoid biosynthesis’ and ‘flavonoid biosynthesis’ exhibited significant expression changes in SES208 compared to LA Purple that might contribute to superior leaf scald resistance in SES208. Conclusions We provided the first systematical transcriptome map that the higher resistance of SES208 is associated with and elicited by the rapid activation of multiple clusters of defense response genes after infection by X. albilineans and not merely due to changes in the expression of genes generically associated with stress resistance. These results will serve as the foundation for further understanding of the molecular mechanisms of resistance against X. albilineans in S. spontaneum.

Published

2023

3. Genome-Wide Identification and Expression Pattern Profiling of the Aquaporin Gene Family in Papaya (Carica papaya L.)

Author

Qiuxia Zeng, Haifeng Jia, Yaying Ma, Liangwei Xu, Ray Ming, and Jingjing Yue

Subjects

papaya, aquaporins, expression pattern, fruit development, abiotic and biotic stress, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Aquaporins (AQPs) are mainly responsible for the transportation of water and other small molecules such as CO2 and H2O2, and they perform diverse functions in plant growth, in development, and under stress conditions. They are also active participants in cell signal transduction in plants. However, little is known about AQP diversity, biological functions, and protein characteristics in papaya. To better understand the structure and function of CpAQPs in papaya, a total of 29 CpAQPs were identified and classified into five subfamilies. Analysis of gene structure and conserved motifs revealed that CpAQPs exhibited a degree of conservation, with some differentiation among subfamilies. The predicted interaction network showed that the PIP subfamily had the strongest protein interactions within the subfamily, while the SIP subfamily showed extensive interaction with members of the PIP, TIP, NIP, and XIP subfamilies. Furthermore, the analysis of CpAQPs’ promoters revealed a large number of cis-elements participating in light, hormone, and stress responses. CpAQPs exhibited different expression patterns in various tissues and under different stress conditions. Collectively, these results provided a foundation for further functional investigations of CpAQPs in ripening, as well as leaf, flower, fruit, and seed development. They also shed light on the potential roles of CpAQP genes in response to environmental factors, offering valuable insights into their biological functions in papaya.

Published

2023

4. Expression profiling of the Dof gene family under abiotic stresses in spinach

Author

Hongying Yu, Yaying Ma, Yijing Lu, Jingjing Yue, and Ray Ming

Subjects

Medicine, Science

Abstract

Abstract DNA-binding with one finger (Dof) are plant-specific transcription factors involved in numerous pathways of plant development, such as abiotic stresses responses. Although genome-wide analysis of Dof genes has been performed in many species, but these genes in spinach have not been analyzed yet. We performed a genome-wide analysis and characterization of Dof gene family in spinach (Spinacia oleracea L.). Twenty-two Dof genes were identified and classified into four groups with nine subgroups, which was further corroborated by gene structure and motif analyses. Ka/Ks analysis revealed that SoDofs were subjected to purifying selection. Using cis-acting elements analysis, SoDofs were involved in plant growth and development, plant hormones, and stress responses. Expression profiling demonstrated that SoDofs expressed in leaf and inflorescence, and responded to cold, heat, and drought stresses. SoDof22 expressed the highest level in male flowers and under cold stress. These results provided a genome-wide analysis of SoDof genes, their gender- and tissue-specific expression, and response to abiotic stresses. The knowledge and resources gained from these analyses will benefit spinach improvement.

Published

2021

5. Allele specific expression of Dof genes responding to hormones and abiotic stresses in sugarcane.

Author

Mingxing Cai, Jishan Lin, Zeyun Li, Zhicong Lin, Yaying Ma, Yibin Wang, and Ray Ming

Subjects

Medicine, Science

Abstract

Dof transcription factors plant-specific and associates with growth and development in plants. We conducted comprehensive and systematic analyses of Dof transcription factors in sugarcane, and identified 29 SsDof transcription factors in sugarcane genome. Those SsDof genes were divided into five groups, with similar gene structures and conserved motifs within the same groups. Segmental duplications are predominant in the evolution of Dof in sugarcane. Cis-element analysis suggested that the functions of SsDofs were involved in growth and development, hormones and abiotic stresses responses in sugarcane. Expression patterns indicated that SsDof7, SsDof23 and SsDof24 had a comparatively high expression in all detected tissues, indicating these genes are crucial in sugarcane growth and development. Moreover, we examined the transcription levels of SsDofs under four plant hormone treatments, SsDof7-3 and SsDof7-4 were down-regulated after ABA treatment, while SsDof7-1 and SsDof7-2 were induced after the same treatment, indicating different alleles may play different roles in response to plant hormones. We also analyzed SsDofs' expression profiling under four abiotic stresses, SsDof5 and SsDof28 significantly responded to these four stresses, indicating they are associate with abiotic stresses responses. Collectively, our results yielded allele specific expression of Dof genes responding to hormones and abiotic stresses in sugarcane, and their cis-elements could be crucial for sugarcane improvement.

Published

2020

6. The complete chloroplast genome sequence of Camellia sinensis var. sinensis cultivar Tieguanyin (Theaceae)

Author

Shuai Chen, Ruoyu Li, Yaying Ma, Siru Lei, Ray Ming, and Xingtan Zhang

Subjects

camellia sinensis var. sinensis cultivar tieguanyin, plastid genome, phylogeny, Genetics, QH426-470

Abstract

Camellia sinensis var. sinensis cultivar Tieguanyin (TGY) is an important Oolong tea variety in China. In this study, we reported a complete chloroplast (cp) genome based on the Illumina sequencing technology and combined de novo and reference-guided assembly strategies. The complete cp genome of ‘TGY’ displayed the regular quadripartite structure: a total of 157,126 bp in length, comprising a large single-copy (LSC, 86,904 bp) region, a small single-copy (SSC, 18,532 bp) region, and a pair of inverted repeats (IRs, 26,095 bp) regions. A lot of 132 predicted genes, including 87 protein-coding genes, 37 tRNA genes, and eight rRNA genes. The overall GC content is 37.3%. Maximum likelihood (ML) phylogenetic tree involving 18 cp genomes of the Camellia genus revealed a relatively independent event of local domestication among three types of cultivars. The complete cp genome of ‘TGY’ provides an insight into tea plants for further understanding evolutionary research on tea plants.

Published

2021

7. SunUp and Sunset genomes revealed impact of particle bombardment mediated transformation and domestication history in papaya

Author

Jingjing Yue, Robert VanBuren, Juan Liu, Jingping Fang, Xingtan Zhang, Zhenyang Liao, Ching Man Wai, Xiuming Xu, Shuai Chen, Shengchen Zhang, Xiaokai Ma, Yaying Ma, Hongying Yu, Jing Lin, Ping Zhou, Yongji Huang, Ban Deng, Fang Deng, Xiaobing Zhao, Hansong Yan, Mahpara Fatima, Dessireé Zerpa-Catanho, Xiaodan Zhang, Zhicong Lin, Mei Yang, Nancy J. Chen, Eric Mora-Newcomer, Patricia Quesada-Rojas, Antonio Bogantes, Víctor M. Jiménez, Haibao Tang, Jisen Zhang, Ming-Li Wang, Robert E. Paull, Qingyi Yu, and Ray Ming

Subjects

Domestication, Plant Breeding, Sex Chromosomes, Carica, Genetics, Chromosomes, Plant

Abstract

Transgenic papaya is widely publicized for controlling papaya ringspot virus. However, the impact of particle bombardment on the genome remains unknown. The transgenic SunUp and its progenitor Sunset genomes were assembled into 351.5 and 350.3 Mb in nine chromosomes, respectively. We identified a 1.64 Mb insertion containing three transgenic insertions in SunUp chromosome 5, consisting of 52 nuclear-plastid, 21 nuclear-mitochondrial and 1 nuclear genomic fragments. A 591.9 kb fragment in chromosome 5 was translocated into the 1.64 Mb insertion. We assembled a gapless 9.8 Mb hermaphrodite-specific region of the Y

Published

2022

8. Haplotype-resolved genome assembly provides insights into evolutionary history of the tea plant Camellia sinensis

Author

Ray Ming, Ruoyu Li, Yaying Ma, Yibin Wang, Liette Vasseur, Yan Shi, Qian Zhao, Jing Lin, Haifeng Wang, Shengcheng Zhang, Haifang He, Xindan Xu, Hu Guiping, Dongliang Zhan, Jiaxin Yu, Longqing Shi, Wenling Wang, Daping Gong, Liufeng Wei, Lin Zhang, Gang Wang, Xiaokai Ma, Zhenyang Liao, Pengjie Wang, Rui Qi, Yunran Ma, Shuai Chen, Naixing Ye, Haibao Tang, Xiangrui Kong, Minsheng You, Xingtan Zhang, and Dongna Ma

Subjects

Crops, Agricultural, Plant genetics, Population genetics, Population, Genomics, Biology, Genetic Introgression, Polymorphism, Single Nucleotide, Article, Camellia sinensis, Domestication, 03 medical and health sciences, 0302 clinical medicine, Gene Expression Regulation, Plant, Phylogenetics, Genetic variation, Genetics, education, Alleles, Phylogeny, Plant Proteins, 030304 developmental biology, 0303 health sciences, education.field_of_study, Genetic diversity, Genetic Variation, food and beverages, Biological Evolution, Genetics, Population, Haplotypes, Evolutionary biology, Genome, Plant, 030217 neurology & neurosurgery

Abstract

Tea is an important global beverage crop and is largely clonally propagated. Despite previous studies on the species, its genetic and evolutionary history deserves further research. Here, we present a haplotype-resolved assembly of an Oolong tea cultivar, Tieguanyin. Analysis of allele-specific expression suggests a potential mechanism in response to mutation load during long-term clonal propagation. Population genomic analysis using 190 Camellia accessions uncovered independent evolutionary histories and parallel domestication in two widely cultivated varieties, var. sinensis and var. assamica. It also revealed extensive intra- and interspecific introgressions contributing to genetic diversity in modern cultivars. Strong signatures of selection were associated with biosynthetic and metabolic pathways that contribute to flavor characteristics as well as genes likely involved in the Green Revolution in the tea industry. Our results offer genetic and molecular insights into the evolutionary history of Camellia sinensis and provide genomic resources to further facilitate gene editing to enhance desirable traits in tea crops., Haplotype-resolved genome assembly of an Oolong tea cultivar Tieguanyin and population genomic analyses of 190 Camellia accessions provide insights into the evolutionary history of the tea plant Camellia sinensis.

Published

2021

9. Expression profiling of the Dof gene family under abiotic stresses in spinach

Author

Yijing Lu, Jingjing Yue, Ray Ming, Yaying Ma, and Hongying Yu

Subjects

0106 biological sciences, 0301 basic medicine, Spinacia, Plant genetics, Science, Flowers, Biology, 01 natural sciences, Article, 03 medical and health sciences, Negative selection, Gene Expression Regulation, Plant, Spinacia oleracea, Stress, Physiological, Genetics, Gene family, Gene, Abiotic component, Multidisciplinary, Cold-Shock Response, food and beverages, biology.organism_classification, Gene expression profiling, Plant Leaves, 030104 developmental biology, Inflorescence, Spinach, Medicine, 010606 plant biology & botany

Abstract

DNA-binding with one finger (Dof) are plant-specific transcription factors involved in numerous pathways of plant development, such as abiotic stresses responses. Although genome-wide analysis of Dof genes has been performed in many species, but these genes in spinach have not been analyzed yet. We performed a genome-wide analysis and characterization of Dof gene family in spinach (Spinacia oleracea L.). Twenty-two Dof genes were identified and classified into four groups with nine subgroups, which was further corroborated by gene structure and motif analyses. Ka/Ks analysis revealed that SoDofs were subjected to purifying selection. Using cis-acting elements analysis, SoDofs were involved in plant growth and development, plant hormones, and stress responses. Expression profiling demonstrated that SoDofs expressed in leaf and inflorescence, and responded to cold, heat, and drought stresses. SoDof22 expressed the highest level in male flowers and under cold stress. These results provided a genome-wide analysis of SoDof genes, their gender- and tissue-specific expression, and response to abiotic stresses. The knowledge and resources gained from these analyses will benefit spinach improvement.

Published

2021

10. Expression profiling of WRKY transcription factors in Spinach

Author

Min Tang, Hongying Yu, Zhicong Lin, Mingxing Cai, Xingtan Zhang, Ray Ming, Yaying Ma, Shuai Chen, and Ruoyu Li

Subjects

Genetics, Gene expression profiling, biology, Spinach, Plant Science, Horticulture, biology.organism_classification, Agronomy and Crop Science, Transcription factor, WRKY protein domain

Published

2021

11. Rambutan genome revealed gene networks for spine formation and aril development

Author

Yongji Huang, Shengcheng Zhang, Jianguo Li, Jing Lin, Fang Deng, Zhanjie Li, Ray Ming, Yaying Ma, Xiaozhou Lv, Shuai Chen, Zhicong Lin, Ziqin Yang, Haifeng Jia, Wenping Zhang, Panpan Ma, Xiuming Xu, Tracie K. Matsumoto, Rui Xia, Shaoquan Zheng, Zhenyang Liao, Xiaokai Ma, Ban Deng, Xingtan Zhang, Jishan Lin, Fei Dong, and Jisen Zhang

Subjects

Rambutan, Population, Plant Science, Flowers, Sapindaceae, Genome, Domestication, chemistry.chemical_compound, Glucosides, Species Specificity, Aril, Genetics, Gene Regulatory Networks, Photosynthesis, education, Gene, Comparative genomics, education.field_of_study, biology, Jasmonic acid, Gene Expression Profiling, Molecular Sequence Annotation, Cell Biology, Genomics, biology.organism_classification, Adaptation, Physiological, Hydrolyzable Tannins, chemistry, Fruit, Taste, Transcriptome, Genome, Plant

Abstract

Rambutan is a popular tropical fruit known for its exotic appearance, has long flexible spines on shells, extraordinary aril growth, desirable nutrition, and a favorable taste. The genome of an elite rambutan cultivar Baoyan 7 was assembled into 328 Mb in 16 pseudo-chromosomes. Comparative genomics analysis between rambutan and lychee revealed that rambutan chromosomes 8 and 12 are collinear with lychee chromosome 1, which resulted in a chromosome fission event in rambutan (n = 16) or a fusion event in lychee (n = 15) after their divergence from a common ancestor 15.7 million years ago. Root development genes played a crucial role in spine development, such as endoplasmic reticulum pathway genes, jasmonic acid response genes, vascular bundle development genes, and K+ transport genes. Aril development was regulated by D-class genes (STK and SHP1), plant hormone and phenylpropanoid biosynthesis genes, and sugar metabolism genes. The lower rate of male sterility of hermaphroditic flowers appears to be regulated by MYB24. Population genomic analyses revealed genes in selective sweeps during domestication that are related to fruit morphology and environment stress response. These findings enhance our understanding of spine and aril development and provide genomic resources for rambutan improvement.

Published

2021

12. Auxin and cytokinin mediated regulation involved in vitro organogenesis of papaya

Author

Liping Zuo, Qiuxia Zeng, Juan Liu, Jingjing Yue, Xiaobing Zhao, Liyuan Yang, Jingping Fang, Jinjin Song, Hanmei Fang, Yaying Ma, and Ban Deng

Subjects

0106 biological sciences, 0301 basic medicine, Cytokinins, Physiology, Callus formation, Organogenesis, Plant Science, 01 natural sciences, 03 medical and health sciences, chemistry.chemical_compound, Organogenesis, Plant, Plant Growth Regulators, Auxin, Stress, Physiological, Arabidopsis, Arabidopsis thaliana, Regeneration, chemistry.chemical_classification, biology, Indoleacetic Acids, Carica, fungi, food and beverages, biology.organism_classification, Cell biology, 030104 developmental biology, chemistry, Callus, Cytokinin, Agronomy and Crop Science, Plant Shoots, 010606 plant biology & botany

Abstract

In vitro organogenesis is a multistep process which is largely controlled by the balance between auxin and cytokinin. Previous studies revealed a complex network regulating in vitro organogenesis in Arabidopsis thaliana; however, our knowledge of the molecular mechanisms underlying de novo shoot formation in papaya (Carica papaya) remains limited. Here, we optimized multiple factors to achieve an efficient and reproducible protocol for the induction of papaya callus formation and shoot regeneration. Subsequently, we analyzed the dynamic transcriptome profiles of samples undergoing this process, identified 5381, 642, 4047, and 2386 differentially expressed genes (DEGs), including 447, 66, 350, and 263 encoding transcription factors (TFs), in four stage comparisons. The DEGs were mainly involved in phytohormone modulation and transduction processes, particularly for auxin and cytokinin. Of these, 21 and 7 candidate genes involved in the auxin and cytokinin pathways, respectively, had distinct expression patterns throughout in vitro organogenesis. Furthermore, we found two genes encoding key TFs, CpLBD19 and CpESR1, were sharply induced on callus induction medium and shoot induction medium, indicating these two TFs may serve as proxies for callus induction and shoot formation in papaya. We therefore report a regulatory network of auxin and cytokinin signaling in papaya according to the one previously modeled for Arabidopsis. Our comprehensive analyses provide insight into the early molecular regulation of callus initiation and shoot formation in papaya, and are useful for the further identification of the regulators governing in vitro organogenesis.

Published

2021

13. Allele specific expression of Dof genes responding to hormones and abiotic stresses in sugarcane

Author

Jishan Lin, Zhicong Lin, Ray Ming, Yaying Ma, Mingxing Cai, Zeyun Li, and Yibin Wang

Subjects

0106 biological sciences, 0301 basic medicine, Gene Expression, Plant Science, Plant Genetics, 01 natural sciences, Biochemistry, Database and Informatics Methods, Plant Growth Regulators, Transcription (biology), Gene Expression Regulation, Plant, Gene Duplication, Gene expression, Plant Genomics, Plant Hormones, Phylogeny, Plant Proteins, Abiotic component, Regulation of gene expression, Genetics, Multidisciplinary, biology, Plant Biochemistry, Eukaryota, Agriculture, Genomics, Plants, Saccharum, Experimental Organism Systems, Medicine, Engineering and Technology, Plant hormone, Sequence Analysis, Genome, Plant, Research Article, Biotechnology, Bioinformatics, Science, Arabidopsis Thaliana, Crops, Bioengineering, Brassica, Research and Analysis Methods, 03 medical and health sciences, Model Organisms, Sequence Motif Analysis, Plant and Algal Models, Stress, Physiological, DNA-binding proteins, Gene Regulation, Grasses, Gene, Transcription factor, Alleles, Gene Expression Profiling, Organisms, Biology and Life Sciences, Proteins, Sugarcane, biology.organism_classification, Hormones, Regulatory Proteins, Gene expression profiling, 030104 developmental biology, Seedlings, Animal Studies, Plant Biotechnology, 010606 plant biology & botany, Crop Science, Transcription Factors

Abstract

Dof transcription factors plant-specific and associates with growth and development in plants. We conducted comprehensive and systematic analyses of Dof transcription factors in sugarcane, and identified 29 SsDof transcription factors in sugarcane genome. Those SsDof genes were divided into five groups, with similar gene structures and conserved motifs within the same groups. Segmental duplications are predominant in the evolution of Dof in sugarcane. Cis-element analysis suggested that the functions of SsDofs were involved in growth and development, hormones and abiotic stresses responses in sugarcane. Expression patterns indicated that SsDof7, SsDof23 and SsDof24 had a comparatively high expression in all detected tissues, indicating these genes are crucial in sugarcane growth and development. Moreover, we examined the transcription levels of SsDofs under four plant hormone treatments, SsDof7-3 and SsDof7-4 were down-regulated after ABA treatment, while SsDof7-1 and SsDof7-2 were induced after the same treatment, indicating different alleles may play different roles in response to plant hormones. We also analyzed SsDofs' expression profiling under four abiotic stresses, SsDof5 and SsDof28 significantly responded to these four stresses, indicating they are associate with abiotic stresses responses. Collectively, our results yielded allele specific expression of Dof genes responding to hormones and abiotic stresses in sugarcane, and their cis-elements could be crucial for sugarcane improvement.

Published

2020

14. Allele-defined genome of the autopolyploid sugarcane Saccharum spontaneum L

Author

Liming Wang, Li Qing Chen, Dong Zhou, Jingjing Yue, David Sankoff, Jisen Zhang, Zhenhui Yang, Zheng Chen, Rongrong Xu, Liangfa Ge, Zhiliang Zhang, Weimin Zhong, Xiuming Xu, Robert VanBuren, Fang Deng, David R. Nelson, Guangyong Zheng, Weichang Hu, Qing Zhang, Jingping Fang, Youjin Deng, Yongjun Wang, Mary A. Schuler, Kai Wang, Lixian Huang, Hai Lin, David M. Braun, Yuan Yuan, Jinxiang Hou, Xingtan Zhang, Xiping Yang, Xin-Guang Zhu, Wenping Zhang, Mengjuan Wang, Qing Jiang, Qing Ma, John E. Bowers, Paul H. Moore, Yan Shi, Peijian Cao, Lei Li, Hong Liu, Ray Ming, Glaucia Mendes Souza, Zhicong Lin, Xuequn Chen, Yaying Ma, Jhon H. Trujillo, Zheng Kuang, Jianping Wang, Jiaxian Shi, Haibao Tang, Gang Wang, Sarah E. Huss, Jie Arro, Maria C. Martinez, Neha Pandey, David Heckerman, Xunxiao Zhang, Yanhong Ma, Pingping Liang, Hongkun Fang, Michael C. Schatz, Jingjing Jin, Matthew E. Hudson, Jinjin Song, Zhen Li, Marija Pushko, Singha R. Dhungana, Ping Zhou, Faming Chen, Setu Chakrabarty, Yinghui Xin, Julie K. Nguyen, Qingyi Yu, Ching Man Wai, Tyler Jones, Melina Cristina Mancini, Zhenyang Liao, Andrew H. Paterson, Huimin Xu, Teng Ma, Guangrui Dong, Liang Yu, Shuai Chen, Jishan Lin, Juan Liu, Xiaokai Ma, Marie-Anne Van Sluys, Chifumi Nagai, Guofeng Wang, Xiuting Hua, Qiaochu Shen, Anupma Sharma, Xiaodan Zhang, Chunfang Zheng, Panpan Ma, Jennifer Han, Jingsheng Xu, Hansong Yan, Rui Qi, Haifeng Jia, Yongmei Zhou, John J. Riascos, Jingxian Lin, Mingju Lv, Fan Zhu, and Dessireé Zerpa

Subjects

0106 biological sciences, 0301 basic medicine, Balancing selection, 01 natural sciences, Genome, Chromosomes, Plant, Translocation, Genetic, Polyploidy, Saccharum, 03 medical and health sciences, Polyploid, Saccharum officinarum, Chromosome Duplication, Genetics, Selection, Genetic, Gene, Alleles, Phylogeny, Sorghum, biology, Chimera, Saccharum spontaneum, High-Throughput Nucleotide Sequencing, food and beverages, biology.organism_classification, 030104 developmental biology, Ploidy, Genome, Plant, 010606 plant biology & botany

Abstract

Modern sugarcanes are polyploid interspecific hybrids, combining high sugar content from Saccharum officinarum with hardiness, disease resistance and ratooning of Saccharum spontaneum. Sequencing of a haploid S. spontaneum, AP85-441, facilitated the assembly of 32 pseudo-chromosomes comprising 8 homologous groups of 4 members each, bearing 35,525 genes with alleles defined. The reduction of basic chromosome number from 10 to 8 in S. spontaneum was caused by fissions of 2 ancestral chromosomes followed by translocations to 4 chromosomes. Surprisingly, 80% of nucleotide binding site-encoding genes associated with disease resistance are located in 4 rearranged chromosomes and 51% of those in rearranged regions. Resequencing of 64 S. spontaneum genomes identified balancing selection in rearranged regions, maintaining their diversity. Introgressed S. spontaneum chromosomes in modern sugarcanes are randomly distributed in AP85-441 genome, indicating random recombination among homologs in different S. spontaneum accessions. The allele-defined Saccharum genome offers new knowledge and resources to accelerate sugarcane improvement.

Published

2018

15. The complete chloroplast genome sequence of Camellia sinensis var. sinensis cultivar Tieguanyin (Theaceae)

Author

Ray Ming, Yaying Ma, Siru Lei, Ruoyu Li, Shuai Chen, and Xingtan Zhang

Subjects

0106 biological sciences, 0301 basic medicine, Whole genome sequencing, biology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Genome, Chloroplast, 03 medical and health sciences, 030104 developmental biology, Phylogenetics, Botany, Genetics, Camellia sinensis, Cultivar, Theaceae, Molecular Biology, Illumina dye sequencing

Abstract

Camellia sinensis var. sinensis cultivar Tieguanyin (TGY) is an important Oolong tea variety in China. In this study, we reported a complete chloroplast (cp) genome based on the Illumina sequencing...

Published

2021

16. Rambutan genome revealed gene networks for spine formation and aril development.

Author

Wenping Zhang, Jishan Lin, Jianguo Li, Shaoquan Zheng, Xingtan Zhang, Shuai Chen, Xiaokai Ma, Fei Dong, Haifeng Jia, Xiuming Xu, Ziqin Yang, Panpan Ma, Fang Deng, Ban Deng, Yongji Huang, Zhanjie Li, Xiaozhou Lv, Yaying Ma, Zhenyang Liao, and Zhicong Lin

Subjects

GENE regulatory networks, MALE sterility in plants, TROPICAL fruit, SPINE, GENOMES, PLANT hormones, COMPARATIVE genomics

Abstract

Rambutan is a popular tropical fruit known for its exotic appearance, has long flexible spines on shells, extraordinary aril growth, desirable nutrition, and a favorable taste. The genome of an elite rambutan cultivar Baoyan 7 was assembled into 328 Mb in 16 pseudo-chromosomes. Comparative genomics analysis between rambutan and lychee revealed that rambutan chromosomes 8 and 12 are collinear with lychee chromosome 1, which resulted in a chromosome fission event in rambutan (n = 16) or a fusion event in lychee (n = 15) after their divergence from a common ancestor 15.7 million years ago. Root development genes played a crucial role in spine development, such as endoplasmic reticulum pathway genes, jasmonic acid response genes, vascular bundle development genes, and K+ transport genes. Aril development was regulated by D-class genes (STK and SHP1), plant hormone and phenylpropanoid biosynthesis genes, and sugar metabolism genes. The lower rate of male sterility of hermaphroditic flowers appears to be regulated by MYB24. Population genomic analyses revealed genes in selective sweeps during domestication that are related to fruit morphology and environment stress response. These findings enhance our understanding of spine and aril development and provide genomic resources for rambutan improvement. [ABSTRACT FROM AUTHOR]

Published

2021

17. Publisher Correction: Allele-defined genome of the autopolyploid sugarcane Saccharum spontaneum L

Author

Jingxian Lin, Andrew H. Paterson, Mingju Lv, Glaucia Mendes Souza, Jianping Wang, Qiaochu Shen, Fang Deng, Jiaxian Shi, Hongkun Fang, Michael C. Schatz, Neha Pandey, Julie K. Nguyen, Ching Man Wai, Yongjun Wang, Kai Wang, Hai Lin, Chifumi Nagai, Fan Zhu, Xuequn Chen, Melina Cristina Mancini, Xiuming Xu, Shuai Chen, Yan Shi, Rongrong Xu, Ray Ming, Yaying Ma, Xin-Guang Zhu, Qingyi Yu, Zheng Kuang, Dessireé Zerpa, Zhenhui Yang, Mary A. Schuler, Robert VanBuren, Yongmei Zhou, Jingjing Yue, Weimin Zhong, Qing Zhang, Faming Chen, Xiaokai Ma, Zhenyang Liao, Xiaodan Zhang, Zhicong Lin, Guangrui Dong, Zheng Chen, John J. Riascos, Sarah E. Huss, Liming Wang, Liang Yu, Jishan Lin, David Heckerman, Xiping Yang, Paul H. Moore, Lei Li, Liangfa Ge, Jingsheng Xu, Hansong Yan, Setu Chakrabarty, Mengjuan Wang, Maria C. Martinez, Youjin Deng, David M. Braun, Haibao Tang, Qing Ma, Huimin Xu, Marija Pushko, Jisen Zhang, Juan Liu, Rui Qi, Jingping Fang, Dong Zhou, Marie-Anne Van Sluys, Weichang Hu, Yanhong Ma, Zhen Li, Guofeng Wang, Jinxiang Hou, Jinjin Song, Lixian Huang, John E. Bowers, Haifeng Jia, Yinghui Xin, Wenping Zhang, Teng Ma, Qing Jiang, Chunfang Zheng, Peijian Cao, Xiuting Hua, David R. Nelson, Xingtan Zhang, Jhon H. Trujillo, Jie Arro, Ping Zhou, Anupma Sharma, Panpan Ma, Jennifer Han, Yuan Yuan, Li Qing Chen, Guangyong Zheng, Xunxiao Zhang, Pingping Liang, David Sankoff, Matthew E. Hudson, Singha R. Dhungana, Zhiliang Zhang, Gang Wang, Jingjing Jin, Tyler Jones, and Hong Liu

Subjects

0301 basic medicine, Section (typography), Saccharum spontaneum, Sequence assembly, Computational biology, Gene Annotation, Accession number (bioinformatics), Biology, biology.organism_classification, Genome, Data availability, 03 medical and health sciences, 030104 developmental biology, Genetics, Allele, FITOPATÓGENOS

Abstract

In the version of this article originally published, the accession codes listed in the data availability section were incorrect and the section was incomplete. The text for this section should have read "The genome assembly and gene annotation have been deposited in the NCBI database under accession number QVOL00000000, BioProject number PRJNA483885 and BioSample number SAMN09753102. The data can also be downloaded from the following link: http://www.life.illinois.edu/ming/downloads/Spontaneum_genome/ ." The errors have been corrected in the HTML and PDF versions of the article.

Published

2018

18. Design of a UHF RFID receiver based on 0.18-μm CMOS technology

Author

Ying, Zhang, primary, Yaying, Ma, additional, Kaixue, Ma, additional, Changchun, Zhang, additional, and Yi, Zhang, additional

Published

2016