Genome of the long-living sacred lotus (Nelumbo nucifera Gaertn.)

BACKGROUND: Sacred lotus is a basal eudicot with agricultural, medicinal, cultural and religious importance. It was domesticated in Asia about 7,000 years ago, and cultivated for its rhizomes and seeds as a food crop. It is particularly noted for its 1,300-year seed longevity and exceptional water r...

Descripción completa

Detalles Bibliográficos
Autores principales: Ming, Ray, VanBuren, Robert, Liu, Yanling, Yang, Mei, Han, Yuepeng, Li, Lei-Ting, Zhang, Qiong, Kim, Min-Jeong, Schatz, Michael C, Campbell, Michael, Li, Jingping, Bowers, John E, Tang, Haibao, Lyons, Eric, Ferguson, Ann A, Narzisi, Giuseppe, Nelson, David R, Blaby-Haas, Crysten E, Gschwend, Andrea R, Jiao, Yuannian, Der, Joshua P, Zeng, Fanchang, Han, Jennifer, Min, Xiang Jia, Hudson, Karen A, Singh, Ratnesh, Grennan, Aleel K, Karpowicz, Steven J, Watling, Jennifer R, Ito, Kikukatsu, Robinson, Sharon A, Hudson, Matthew E, Yu, Qingyi, Mockler, Todd C, Carroll, Andrew, Zheng, Yun, Sunkar, Ramanjulu, Jia, Ruizong, Chen, Nancy, Arro, Jie, Wai, Ching Man, Wafula, Eric, Spence, Ashley, Han, Yanni, Xu, Liming, Zhang, Jisen, Peery, Rhiannon, Haus, Miranda J, Xiong, Wenwei, Walsh, James A, Wu, Jun, Wang, Ming-Li, Zhu, Yun J, Paull, Robert E, Britt, Anne B, Du, Chunguang, Downie, Stephen R, Schuler, Mary A, Michael, Todd P, Long, Steve P, Ort, Donald R, William Schopf, J, Gang, David R, Jiang, Ning, Yandell, Mark, dePamphilis, Claude W, Merchant, Sabeeha S, Paterson, Andrew H, Buchanan, Bob B, Li, Shaohua, Shen-Miller, Jane
Formato: Online Artículo Texto
Lenguaje:English
Publicado: BioMed Central 2013
Materias:
Research
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4053705/
https://www.ncbi.nlm.nih.gov/pubmed/23663246
http://dx.doi.org/10.1186/gb-2013-14-5-r41
_version_ 1782320421691981824
author Ming, Ray
VanBuren, Robert
Liu, Yanling
Yang, Mei
Han, Yuepeng
Li, Lei-Ting
Zhang, Qiong
Kim, Min-Jeong
Schatz, Michael C
Campbell, Michael
Li, Jingping
Bowers, John E
Tang, Haibao
Lyons, Eric
Ferguson, Ann A
Narzisi, Giuseppe
Nelson, David R
Blaby-Haas, Crysten E
Gschwend, Andrea R
Jiao, Yuannian
Der, Joshua P
Zeng, Fanchang
Han, Jennifer
Min, Xiang Jia
Hudson, Karen A
Singh, Ratnesh
Grennan, Aleel K
Karpowicz, Steven J
Watling, Jennifer R
Ito, Kikukatsu
Robinson, Sharon A
Hudson, Matthew E
Yu, Qingyi
Mockler, Todd C
Carroll, Andrew
Zheng, Yun
Sunkar, Ramanjulu
Jia, Ruizong
Chen, Nancy
Arro, Jie
Wai, Ching Man
Wafula, Eric
Spence, Ashley
Han, Yanni
Xu, Liming
Zhang, Jisen
Peery, Rhiannon
Haus, Miranda J
Xiong, Wenwei
Walsh, James A
Wu, Jun
Wang, Ming-Li
Zhu, Yun J
Paull, Robert E
Britt, Anne B
Du, Chunguang
Downie, Stephen R
Schuler, Mary A
Michael, Todd P
Long, Steve P
Ort, Donald R
William Schopf, J
Gang, David R
Jiang, Ning
Yandell, Mark
dePamphilis, Claude W
Merchant, Sabeeha S
Paterson, Andrew H
Buchanan, Bob B
Li, Shaohua
Shen-Miller, Jane
author_facet Ming, Ray
VanBuren, Robert
Liu, Yanling
Yang, Mei
Han, Yuepeng
Li, Lei-Ting
Zhang, Qiong
Kim, Min-Jeong
Schatz, Michael C
Campbell, Michael
Li, Jingping
Bowers, John E
Tang, Haibao
Lyons, Eric
Ferguson, Ann A
Narzisi, Giuseppe
Nelson, David R
Blaby-Haas, Crysten E
Gschwend, Andrea R
Jiao, Yuannian
Der, Joshua P
Zeng, Fanchang
Han, Jennifer
Min, Xiang Jia
Hudson, Karen A
Singh, Ratnesh
Grennan, Aleel K
Karpowicz, Steven J
Watling, Jennifer R
Ito, Kikukatsu
Robinson, Sharon A
Hudson, Matthew E
Yu, Qingyi
Mockler, Todd C
Carroll, Andrew
Zheng, Yun
Sunkar, Ramanjulu
Jia, Ruizong
Chen, Nancy
Arro, Jie
Wai, Ching Man
Wafula, Eric
Spence, Ashley
Han, Yanni
Xu, Liming
Zhang, Jisen
Peery, Rhiannon
Haus, Miranda J
Xiong, Wenwei
Walsh, James A
Wu, Jun
Wang, Ming-Li
Zhu, Yun J
Paull, Robert E
Britt, Anne B
Du, Chunguang
Downie, Stephen R
Schuler, Mary A
Michael, Todd P
Long, Steve P
Ort, Donald R
William Schopf, J
Gang, David R
Jiang, Ning
Yandell, Mark
dePamphilis, Claude W
Merchant, Sabeeha S
Paterson, Andrew H
Buchanan, Bob B
Li, Shaohua
Shen-Miller, Jane
author_sort Ming, Ray
collection PubMed
description BACKGROUND: Sacred lotus is a basal eudicot with agricultural, medicinal, cultural and religious importance. It was domesticated in Asia about 7,000 years ago, and cultivated for its rhizomes and seeds as a food crop. It is particularly noted for its 1,300-year seed longevity and exceptional water repellency, known as the lotus effect. The latter property is due to the nanoscopic closely packed protuberances of its self-cleaning leaf surface, which have been adapted for the manufacture of a self-cleaning industrial paint, Lotusan. RESULTS: The genome of the China Antique variety of the sacred lotus was sequenced with Illumina and 454 technologies, at respective depths of 101× and 5.2×. The final assembly has a contig N50 of 38.8 kbp and a scaffold N50 of 3.4 Mbp, and covers 86.5% of the estimated 929 Mbp total genome size. The genome notably lacks the paleo-triplication observed in other eudicots, but reveals a lineage-specific duplication. The genome has evidence of slow evolution, with a 30% slower nucleotide mutation rate than observed in grape. Comparisons of the available sequenced genomes suggest a minimum gene set for vascular plants of 4,223 genes. Strikingly, the sacred lotus has 16 COG2132 multi-copper oxidase family proteins with root-specific expression; these are involved in root meristem phosphate starvation, reflecting adaptation to limited nutrient availability in an aquatic environment. CONCLUSIONS: The slow nucleotide substitution rate makes the sacred lotus a better resource than the current standard, grape, for reconstructing the pan-eudicot genome, and should therefore accelerate comparative analysis between eudicots and monocots.
format Online
Article
Text
id pubmed-4053705
institution National Center for Biotechnology Information
language English
publishDate 2013
publisher BioMed Central
record_format MEDLINE/PubMed
spelling pubmed-40537052014-06-13 Genome of the long-living sacred lotus (Nelumbo nucifera Gaertn.) Ming, Ray VanBuren, Robert Liu, Yanling Yang, Mei Han, Yuepeng Li, Lei-Ting Zhang, Qiong Kim, Min-Jeong Schatz, Michael C Campbell, Michael Li, Jingping Bowers, John E Tang, Haibao Lyons, Eric Ferguson, Ann A Narzisi, Giuseppe Nelson, David R Blaby-Haas, Crysten E Gschwend, Andrea R Jiao, Yuannian Der, Joshua P Zeng, Fanchang Han, Jennifer Min, Xiang Jia Hudson, Karen A Singh, Ratnesh Grennan, Aleel K Karpowicz, Steven J Watling, Jennifer R Ito, Kikukatsu Robinson, Sharon A Hudson, Matthew E Yu, Qingyi Mockler, Todd C Carroll, Andrew Zheng, Yun Sunkar, Ramanjulu Jia, Ruizong Chen, Nancy Arro, Jie Wai, Ching Man Wafula, Eric Spence, Ashley Han, Yanni Xu, Liming Zhang, Jisen Peery, Rhiannon Haus, Miranda J Xiong, Wenwei Walsh, James A Wu, Jun Wang, Ming-Li Zhu, Yun J Paull, Robert E Britt, Anne B Du, Chunguang Downie, Stephen R Schuler, Mary A Michael, Todd P Long, Steve P Ort, Donald R William Schopf, J Gang, David R Jiang, Ning Yandell, Mark dePamphilis, Claude W Merchant, Sabeeha S Paterson, Andrew H Buchanan, Bob B Li, Shaohua Shen-Miller, Jane Genome Biol Research BACKGROUND: Sacred lotus is a basal eudicot with agricultural, medicinal, cultural and religious importance. It was domesticated in Asia about 7,000 years ago, and cultivated for its rhizomes and seeds as a food crop. It is particularly noted for its 1,300-year seed longevity and exceptional water repellency, known as the lotus effect. The latter property is due to the nanoscopic closely packed protuberances of its self-cleaning leaf surface, which have been adapted for the manufacture of a self-cleaning industrial paint, Lotusan. RESULTS: The genome of the China Antique variety of the sacred lotus was sequenced with Illumina and 454 technologies, at respective depths of 101× and 5.2×. The final assembly has a contig N50 of 38.8 kbp and a scaffold N50 of 3.4 Mbp, and covers 86.5% of the estimated 929 Mbp total genome size. The genome notably lacks the paleo-triplication observed in other eudicots, but reveals a lineage-specific duplication. The genome has evidence of slow evolution, with a 30% slower nucleotide mutation rate than observed in grape. Comparisons of the available sequenced genomes suggest a minimum gene set for vascular plants of 4,223 genes. Strikingly, the sacred lotus has 16 COG2132 multi-copper oxidase family proteins with root-specific expression; these are involved in root meristem phosphate starvation, reflecting adaptation to limited nutrient availability in an aquatic environment. CONCLUSIONS: The slow nucleotide substitution rate makes the sacred lotus a better resource than the current standard, grape, for reconstructing the pan-eudicot genome, and should therefore accelerate comparative analysis between eudicots and monocots. BioMed Central 2013 2013-05-10 /pmc/articles/PMC4053705/ /pubmed/23663246 http://dx.doi.org/10.1186/gb-2013-14-5-r41 Text en Copyright © 2013 Ming et al.; licensee BioMed Central Ltd. http://creativecommons.org/licenses/by/2.0 This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research
Ming, Ray
VanBuren, Robert
Liu, Yanling
Yang, Mei
Han, Yuepeng
Li, Lei-Ting
Zhang, Qiong
Kim, Min-Jeong
Schatz, Michael C
Campbell, Michael
Li, Jingping
Bowers, John E
Tang, Haibao
Lyons, Eric
Ferguson, Ann A
Narzisi, Giuseppe
Nelson, David R
Blaby-Haas, Crysten E
Gschwend, Andrea R
Jiao, Yuannian
Der, Joshua P
Zeng, Fanchang
Han, Jennifer
Min, Xiang Jia
Hudson, Karen A
Singh, Ratnesh
Grennan, Aleel K
Karpowicz, Steven J
Watling, Jennifer R
Ito, Kikukatsu
Robinson, Sharon A
Hudson, Matthew E
Yu, Qingyi
Mockler, Todd C
Carroll, Andrew
Zheng, Yun
Sunkar, Ramanjulu
Jia, Ruizong
Chen, Nancy
Arro, Jie
Wai, Ching Man
Wafula, Eric
Spence, Ashley
Han, Yanni
Xu, Liming
Zhang, Jisen
Peery, Rhiannon
Haus, Miranda J
Xiong, Wenwei
Walsh, James A
Wu, Jun
Wang, Ming-Li
Zhu, Yun J
Paull, Robert E
Britt, Anne B
Du, Chunguang
Downie, Stephen R
Schuler, Mary A
Michael, Todd P
Long, Steve P
Ort, Donald R
William Schopf, J
Gang, David R
Jiang, Ning
Yandell, Mark
dePamphilis, Claude W
Merchant, Sabeeha S
Paterson, Andrew H
Buchanan, Bob B
Li, Shaohua
Shen-Miller, Jane
Genome of the long-living sacred lotus (Nelumbo nucifera Gaertn.)
title Genome of the long-living sacred lotus (Nelumbo nucifera Gaertn.)
title_full Genome of the long-living sacred lotus (Nelumbo nucifera Gaertn.)
title_fullStr Genome of the long-living sacred lotus (Nelumbo nucifera Gaertn.)
title_full_unstemmed Genome of the long-living sacred lotus (Nelumbo nucifera Gaertn.)
title_short Genome of the long-living sacred lotus (Nelumbo nucifera Gaertn.)
title_sort genome of the long-living sacred lotus (nelumbo nucifera gaertn.)
topic Research
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4053705/
https://www.ncbi.nlm.nih.gov/pubmed/23663246
http://dx.doi.org/10.1186/gb-2013-14-5-r41
work_keys_str_mv AT mingray genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT vanburenrobert genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT liuyanling genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT yangmei genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT hanyuepeng genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT lileiting genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT zhangqiong genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT kimminjeong genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT schatzmichaelc genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT campbellmichael genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT lijingping genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT bowersjohne genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT tanghaibao genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT lyonseric genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT fergusonanna genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT narzisigiuseppe genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT nelsondavidr genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT blabyhaascrystene genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT gschwendandrear genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT jiaoyuannian genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT derjoshuap genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT zengfanchang genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT hanjennifer genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT minxiangjia genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT hudsonkarena genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT singhratnesh genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT grennanaleelk genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT karpowiczstevenj genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT watlingjenniferr genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT itokikukatsu genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT robinsonsharona genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT hudsonmatthewe genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT yuqingyi genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT mocklertoddc genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT carrollandrew genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT zhengyun genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT sunkarramanjulu genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT jiaruizong genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT chennancy genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT arrojie genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT waichingman genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT wafulaeric genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT spenceashley genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT hanyanni genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT xuliming genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT zhangjisen genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT peeryrhiannon genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT hausmirandaj genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT xiongwenwei genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT walshjamesa genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT wujun genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT wangmingli genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT zhuyunj genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT paullroberte genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT brittanneb genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT duchunguang genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT downiestephenr genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT schulermarya genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT michaeltoddp genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT longstevep genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT ortdonaldr genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT williamschopfj genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT gangdavidr genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT jiangning genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT yandellmark genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT depamphilisclaudew genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT merchantsabeehas genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT patersonandrewh genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT buchananbobb genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT lishaohua genomeofthelonglivingsacredlotusnelumbonuciferagaertn
AT shenmillerjane genomeofthelonglivingsacredlotusnelumbonuciferagaertn

Ejemplares similares