分子植物育种
分子植物育種
분자식물육충
MOLECULAR PLANT BREEDING
2010年
2期
345-349
,共5页
茶树%离体再生%发根农杆菌%遗传转化
茶樹%離體再生%髮根農桿菌%遺傳轉化
다수%리체재생%발근농간균%유전전화
Tea plant (Camellia sinensis)%Regeneration in vitro%A grobacterium rhizogenes%Genetic transformation
茶树(Camellia sinensis(L.)O.Kuntze)属山茶科(Theaceae),是重要的饮料作物.茶树为多年生木本植物,其自身的一些特性,如长生育周期、自交不亲和性、高度自交衰退等,使人工杂交或自交进行的遗传改良受到诸多限制.因此通过遗传转化进行茶树育种越来越受到研究者的重视.离体再生困难和转化效率低是限制茶树遗传转化进行的主要因素.本文在综述了茶树微繁途径、器官发生途径和体细胞胚发生途径等离体植株再生和遗传转化的主要研究进展基础上,提出发根农杆菌(Agrobacterium rhizogenes)介导法最有可能在茶树遗传转化上取得成功.
茶樹(Camellia sinensis(L.)O.Kuntze)屬山茶科(Theaceae),是重要的飲料作物.茶樹為多年生木本植物,其自身的一些特性,如長生育週期、自交不親和性、高度自交衰退等,使人工雜交或自交進行的遺傳改良受到諸多限製.因此通過遺傳轉化進行茶樹育種越來越受到研究者的重視.離體再生睏難和轉化效率低是限製茶樹遺傳轉化進行的主要因素.本文在綜述瞭茶樹微繁途徑、器官髮生途徑和體細胞胚髮生途徑等離體植株再生和遺傳轉化的主要研究進展基礎上,提齣髮根農桿菌(Agrobacterium rhizogenes)介導法最有可能在茶樹遺傳轉化上取得成功.
다수(Camellia sinensis(L.)O.Kuntze)속산다과(Theaceae),시중요적음료작물.다수위다년생목본식물,기자신적일사특성,여장생육주기、자교불친화성、고도자교쇠퇴등,사인공잡교혹자교진행적유전개량수도제다한제.인차통과유전전화진행다수육충월래월수도연구자적중시.리체재생곤난화전화효솔저시한제다수유전전화진행적주요인소.본문재종술료다수미번도경、기관발생도경화체세포배발생도경등리체식주재생화유전전화적주요연구진전기출상,제출발근농간균(Agrobacterium rhizogenes)개도법최유가능재다수유전전화상취득성공.
Tea plant (Camellia sinensis (L.) O.Kuntze) is one of the important crops for beverage,which belongs to the family Theaceae.Tea plant is one perennial woody plant,there are some characteristics which limit the genetic improvement by artificial interspecific hybridization or selfing of tea,such as long life cycle,self-incompatibility and high inbreeding depression,etc..The genetic transformation in tea plant breeding becomes more and more attractive.The major limited factors of genetic transformation in tea plant are the difficult plant regeneration and low transformation efficiency.The advance advances in plant regeneration include micropropagation,organogenesis and embryogenesis,and genetic transformation in Camellia sinensis were reviewed,the author suggested that Agrobacterium rhizogenes mediated-transformation maybe a possible successful method in tea plant.