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Paul H. Moore
Researcher at Agricultural Research Service
Publications - 125
Citations - 9302
Paul H. Moore is an academic researcher from Agricultural Research Service. The author has contributed to research in topics: Carica & Genome. The author has an hindex of 50, co-authored 125 publications receiving 8472 citations. Previous affiliations of Paul H. Moore include United States Department of Agriculture & Houston Advanced Research Center.
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Journal ArticleDOI
The draft genome of the transgenic tropical fruit tree papaya (Carica papaya Linnaeus)
Ray Ming,Shaobin Hou,Yun Feng,Qingyi Yu,Alexandre Dionne-Laporte,Jimmy H. Saw,Pavel Senin,Wei Wang,Benjamin V. Ly,Kanako L. T. Lewis,Steven L. Salzberg,Lu Feng,Matthew Jones,Rachel L. Skelton,Jan E. Murray,Cuixia Chen,Wubin Qian,Junguo Shen,Peng Du,Moriah Eustice,Eric J. Tong,Haibao Tang,Eric Lyons,Robert E. Paull,Todd P. Michael,Kerr Wall,Danny W. Rice,Henrik H. Albert,Ming Li Wang,Yun J. Zhu,Michael C. Schatz,Niranjan Nagarajan,Ricelle A. Acob,Peizhu Guan,Andrea Blas,Ching Man Wai,Christine M. Ackerman,Yan Ren,Chao Liu,Jianmei Wang,Jianping Wang,Jong Kuk Na,Eugene V. Shakirov,Brian J. Haas,Jyothi Thimmapuram,David R. Nelson,Xiyin Wang,John E. Bowers,Andrea R. Gschwend,Arthur L. Delcher,Ratnesh Singh,Jon Y. Suzuki,Savarni Tripathi,Neupane Kabi Raj,Hairong Wei,Beth Irikura,Maya Devi Paidi,Ning Jiang,Wenli Zhang,Gernot G. Presting,Aaron J. Windsor,Rafael Navajas-Pérez,Manuel J. Torres,F. Alex Feltus,Brad W. Porter,Yingjun Li,A. Max Burroughs,Ming-Cheng Luo,Lei Liu,David A. Christopher,Stephen M. Mount,Paul H. Moore,Tak Sugimura,Jiming Jiang,Mary A. Schuler,Vikki Friedman,Thomas Mitchell-Olds,Dorothy E. Shippen,Claude W. dePamphilis,Jeffrey D. Palmer,Michael Freeling,Andrew H. Paterson,Dennis Gonsalves,Lei Wang,Maqsudul Alam +84 more
TL;DR: Papaya offers numerous advantages as a system for fruit-tree functional genomics, and this draft genome sequence provides the foundation for revealing the basis of Carica’s distinguishing morpho-physiological, medicinal and nutritional properties.
Journal ArticleDOI
The pineapple genome and the evolution of CAM photosynthesis
Ray Ming,Ray Ming,Robert VanBuren,Robert VanBuren,Robert VanBuren,Ching Man Wai,Ching Man Wai,Haibao Tang,Haibao Tang,Michael C. Schatz,John E. Bowers,Eric Lyons,Ming Li Wang,Jung Chen,Eric Biggers,Jisen Zhang,Lixian Huang,Lingmao Zhang,Wenjing Miao,Jian Zhang,Zhangyao Ye,Chenyong Miao,Zhicong Lin,Hao Wang,Hongye Zhou,Won Cheol Yim,Henry D. Priest,Chunfang Zheng,Margaret R. Woodhouse,Patrick P. Edger,Romain Guyot,Hao-Bo Guo,Hong Guo,Guangyong Zheng,Ratnesh Singh,Anupma Sharma,Xiang Jia Min,Yun Zheng,Hayan Lee,James Gurtowski,Fritz J. Sedlazeck,Alex Harkess,Michael R. McKain,Zhenyang Liao,Jingping Fang,Juan Liu,Xiaodan Zhang,Qing Zhang,Weichang Hu,Yuan Qin,Kai Wang,Li Yu Chen,Neil J. Shirley,Yann-Rong Lin,Li Yu Liu,Alvaro G. Hernandez,Chris L. Wright,Vincent Bulone,Gerald A. Tuskan,Katy D. Heath,Francis Zee,Paul H. Moore,Ramanjulu Sunkar,Jim Leebens-Mack,Todd C. Mockler,Jeffrey L. Bennetzen,Michael Freeling,David Sankoff,Andrew H. Paterson,Xin-Guang Zhu,Xiaohan Yang,J. Andrew C. Smith,John C. Cushman,Robert E. Paull,Qingyi Yu +74 more
TL;DR: The pineapple lineage has transitioned from C3 photosynthesis to CAM, with CAM-related genes exhibiting a diel expression pattern in photosynthetic tissues, providing the first cis-regulatory link between CAM and circadian clock regulation.
Journal ArticleDOI
Sugarcane for bioenergy production: an assessment of yield and regulation of sucrose content
Alessandro Jaquiel Waclawovsky,Paloma Mieko Sato,Carolina Gimiliani Lembke,Paul H. Moore,Glaucia Mendes Souza +4 more
TL;DR: This review focuses on the studies of sugarcane genes associated with sucrose content, biomass and cell wall metabolism and the preliminary physiological characterization of cultivars that contrast for sugar and biomass yield.
Journal ArticleDOI
Allele-defined genome of the autopolyploid sugarcane Saccharum spontaneum L.
Jisen Zhang,Xingtan Zhang,Haibao Tang,Qing Zhang,Xiuting Hua,Xiaokai Ma,Fan Zhu,Tyler Jones,Xin-Guang Zhu,John E. Bowers,Ching Man Wai,Chunfang Zheng,Yan Shi,Shuai Chen,Xiuming Xu,Jingjing Yue,David R. Nelson,Lixian Huang,Zhen Li,Huimin Xu,Dong Zhou,Yongjun Wang,Weichang Hu,Jishan Lin,Youjin Deng,Neha Pandey,Melina Cristina Mancini,Dessireé Zerpa,Julie K. Nguyen,Liming Wang,Liang Yu,Yinghui Xin,Liangfa Ge,Jie Arro,Jennifer Han,Setu Chakrabarty,Marija Pushko,Wenping Zhang,Yanhong Ma,Panpan Ma,Mingju Lv,Faming Chen,Guangyong Zheng,Jingsheng Xu,Zhenhui Yang,Fang Deng,Xuequn Chen,Zhenyang Liao,Xunxiao Zhang,Zhicong Lin,Hai Lin,Hansong Yan,Zheng Kuang,Weimin Zhong,Pingping Liang,Guofeng Wang,Yuan Yuan,Jiaxian Shi,Jinxiang Hou,Jingxian Lin,Jingjing Jin,Peijian Cao,Qiaochu Shen,Qing Jiang,Ping Zhou,Yaying Ma,Xiaodan Zhang,Rongrong Xu,Juan Liu,Yongmei Zhou,Haifeng Jia,Qing Ma,Rui Qi,Zhiliang Zhang,Jingping Fang,Hongkun Fang,Jinjin Song,Mengjuan Wang,Guangrui Dong,Gang Wang,Zheng Chen,Teng Ma,Hong Liu,Singha R. Dhungana,Sarah E. Huss,Xiping Yang,Anupma Sharma,Jhon H. Trujillo,Maria C. Martinez,Matthew E. Hudson,John J. Riascos,Mary A. Schuler,Li Qing Chen,David M. Braun,Lei Li,Qingyi Yu,Jianping Wang,Jianping Wang,Kai Wang,Michael C. Schatz,David Heckerman,Marie-Anne Van Sluys,Glaucia Mendes Souza,Paul H. Moore,David Sankoff,Robert VanBuren,Andrew H. Paterson,Chifumi Nagai,Ray Ming,Ray Ming +109 more
TL;DR: In this article, a haplotype of 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.
Journal ArticleDOI
A primitive Y chromosome in papaya marks incipient sex chromosome evolution
Zhiyong Liu,Paul H. Moore,Hao Ma,Christine M. Ackerman,Makandar Ragiba,Qingyi Yu,Heather M. Pearl,Minna S. Kim,Joseph W. Charlton,John I. Stiles,Francis Zee,Andrew H. Paterson,Ray Ming +12 more
TL;DR: It is shown that papaya contains a primitive Y chromosome, with a male-specific region that accounts for only about 10% of the chromosome but has undergone severe recombination suppression and DNA sequence degeneration, providing direct evidence for the origin of sex chromosomes from autosomes.