浙江大学学报(农业与生命科学版)
浙江大學學報(農業與生命科學版)
절강대학학보(농업여생명과학판)
JOURNAL OF ZHEJIANG UNIVERSITY(AGRICULTURE & LIFE SCIENCES)
2014年
4期
397-403
,共7页
林张翔%王营营%付菲%叶楚玉%樊龙江
林張翔%王營營%付菲%葉楚玉%樊龍江
림장상%왕영영%부비%협초옥%번룡강
野生稻%叶绿体基因组%高通量测序%水稻驯化%东乡野生稻(中国)
野生稻%葉綠體基因組%高通量測序%水稻馴化%東鄉野生稻(中國)
야생도%협록체기인조%고통량측서%수도순화%동향야생도(중국)
Oryza rufipogon%chloroplast genome%high-throughput sequencing%rice domestication%Dongxiang wild rice (China)
为了优化叶绿体基因组DNA序列的获取和拼接方法,以东乡野生稻(Oryzarufipogon)嫩绿叶为材料,不需分离叶绿体DNA ,利用高通量测序获得的全基因组短序列及叶绿体基因组高度保守的特性,与参考序列进行比对,从而组装拼接出叶绿体DNA序列,并同时利用生物信息学手段和聚合酶链反应扩增进行补洞。最终获得东乡野生稻完整叶绿体基因组序列,大小为134537 bp ,大、小单拷贝区和反向互补重复区大小分别为80585 bp ,12346 bp ,20803 bp ,共注释叶绿体基因152个。基于获取的东乡野生稻及其他稻属物种叶绿体基因组序列进行系统进化分析,研究结果支持已有的关于栽培籼粳稻起源的结论,即栽培籼粳稻分别与野生稻聚类到2个亚群中,其中粳稻与中国普通野生稻聚在1个亚群中,表明粳稻驯化起源于中国,而籼稻起源于另外一次独立驯化过程。
為瞭優化葉綠體基因組DNA序列的穫取和拼接方法,以東鄉野生稻(Oryzarufipogon)嫩綠葉為材料,不需分離葉綠體DNA ,利用高通量測序穫得的全基因組短序列及葉綠體基因組高度保守的特性,與參攷序列進行比對,從而組裝拼接齣葉綠體DNA序列,併同時利用生物信息學手段和聚閤酶鏈反應擴增進行補洞。最終穫得東鄉野生稻完整葉綠體基因組序列,大小為134537 bp ,大、小單拷貝區和反嚮互補重複區大小分彆為80585 bp ,12346 bp ,20803 bp ,共註釋葉綠體基因152箇。基于穫取的東鄉野生稻及其他稻屬物種葉綠體基因組序列進行繫統進化分析,研究結果支持已有的關于栽培秈粳稻起源的結論,即栽培秈粳稻分彆與野生稻聚類到2箇亞群中,其中粳稻與中國普通野生稻聚在1箇亞群中,錶明粳稻馴化起源于中國,而秈稻起源于另外一次獨立馴化過程。
위료우화협록체기인조DNA서렬적획취화병접방법,이동향야생도(Oryzarufipogon)눈록협위재료,불수분리협록체DNA ,이용고통량측서획득적전기인조단서렬급협록체기인조고도보수적특성,여삼고서렬진행비대,종이조장병접출협록체DNA서렬,병동시이용생물신식학수단화취합매련반응확증진행보동。최종획득동향야생도완정협록체기인조서렬,대소위134537 bp ,대、소단고패구화반향호보중복구대소분별위80585 bp ,12346 bp ,20803 bp ,공주석협록체기인152개。기우획취적동향야생도급기타도속물충협록체기인조서렬진행계통진화분석,연구결과지지이유적관우재배선갱도기원적결론,즉재배선갱도분별여야생도취류도2개아군중,기중갱도여중국보통야생도취재1개아군중,표명갱도순화기원우중국,이선도기원우령외일차독립순화과정。
Complete chloroplast genome sequence is very useful for studying the evolution of species . To get chloroplast genome sequences , purification of the chloroplast or PCR amplification prior to sequencing is commonly involved in conventional approaches . Advances in DNA sequencing technology provide new opportunities to obtain chloroplast genome sequence from the whole-genome high-throughput sequencing data without purification of the chloroplast . In this study , we finished the complete chloroplast genome sequence of Dongxiang wild rice based on high-throughput sequencing data from their fresh green leaves . The chloroplast genome was 134 537 bp in size , and had a typical quadripartite structure with the large single copy ( LSC , 80 585 bp) and small single copy ( SSC , 12 346 bp) regions separated by two copies of an inverted repeat ( IR , 20 803 bp each) region . One hundred and fifty-two chloroplast genes were successfully annotated . A phylogenetic tree was constructed based on the chloroplast genomes of Dongxiang wild rice , Indica , Japonica and 10 other genera of grasses using the neighbor-joining method . The result showed that Dongxiang wild rice had a closer relationship with Bambusa oldhamii and Panicoideae . Furthermore , the SNPs of 22 rice accessions were identified using the chloroplast genome of Dongxiang wild rice as a reference sequence and a phylogenetic tree was constructed based on these SNPs . The result illustrated that Indica had a closer relationship with wild rice-I , while Japonica was closer to wild rice-III , suggesting that Indica and Japonica were domesticated independently from different wild rice populations .