电融合获得用于选择抗CTV砧木的酸橙与甜橙体细胞杂种植株

在已知参数条件下,通过电场诱导酸橙（Cit-rus aurantium L.）叶肉原生质体和沙漠蒂甜橙（C.sinensis Osbeck cv.Shamouti）的胚性愈伤组织原生质体融合,副合产物经培养再生出40棵植株。染色体检查表明所得到的植株具有36条染色体。为四倍体植株。再生植株具有翼叶,叶片厚,表现出多倍体的特征,采用2个10－碱基随机引物鉴别再生植株的杂种特性。在2个引物的扩增带型中,再生植株的随机扩增带图里出现了融合亲本的特征带。对再生植株染色体计数和RAPD分析的结果表明它们是酸橙和甜橙种间异源四倍体体细胞杂种植株。这些体细胞杂种植株的获得为选择具有酸橙优良性状、同时抗CTV的新型砧木提供了好的试材。     

脐橙与柠檬种间细胞电融合再生杂种植株

‘纽荷尔’脐橙（Ｃｉｔｒｕｓｓｉｎｅｎｓｉｓ（Ｌ．）Ｏｓｂｅｃｋ）胚性细胞悬浮原生质体与‘尤力克’柠檬（Ｃｉｔｒｕｓｌｉｍｏｎ（Ｌ．）Ｂｕｒｍ．ｆ）叶肉原生质体经电场诱导融合,培养８个月,首批再生了１棵植株,形态学观察,染色体计数及ＲＡＰＤ分析证明异源四倍体体细胞杂种,该杂种的获得为三倍体无籽柠檬品种培育提供了杂交亲本。     

柑橘细胞电融合参数选择及种间体细胞杂种植株再生

以“Ｐａｇｅ”橘柚（ＣｉｔｒｕｓｒｅｔｉｃｕｌａｔａＢｌａｎｃｏ×Ｃ．ｐａｒａｄｉｓｉＭａｃｆ）胚性悬浮系原生质体和粗柠檬（Ｃ．ｊａｍｂｈｉｒｉＬｕｓｈ）叶肉原生质体为融合试材,摸索了适合柑橘的电融合参数。研究表明,在ＡＣ（交变电场）１２５Ｖ／ｃｍ、ＤＣ（直流脉冲）１２５０Ｖ／ｃｍ、ＡＣ作用时间６０ｓ、ＤＣ脉冲时间５０μｓ、ＤＣ脉冲个数为３、ＤＣ脉冲间隔为０．５ｓ时融合率较高,双核异核体率可以达到１５％以上。利用不同类型原生质体比重的不同,融合后通过控制离心时间,可以收集到更高比例的双核异核体。融合产物经培养,３～４个月再生小植株。染色体计数结合形态学观察表明,再生的１５０株小植株中７８％为四倍体,其余为二倍体叶肉亲本再生类型。再生植株经过氧化物酶同工酶及ＲＡＰＤ分析,表明得到了体细胞杂种,还证明获得了１株叶肉亲本同源四倍体再生类型。     

哈姆林甜橙与粗柠檬体细胞杂种的育性

对异源四倍体柑桔体细胞杂种“哈姆林甜橙＋粗柠檬”及其亲本的花粉活力,花器官发育,花器官形态发生与共母细胞减数分裂四分体阶段进行了观测和统计,结果发现：“哈姆林甜橙＋粗柠檬”的花粉染色活力,萌发率,线花药中花粉粒数均居于其双亲之间,花器官发育及其形态发生具有双亲的特点,但小花粉及花粉母细胞减数分裂过程中形成的不正常四分体比率远远高于其双亲。以体细胞杂种“哈姆林甜橙＋粗柠檬”为花粉亲本,与二倍体单胚类型宜昌橙与华农本地早的有性后代杂交,获得了110棵有性后代植株,其中三倍体82棵,二倍体和其它倍性的植株28棵。     

甜橙与酸橙体细胞杂种核质组成鉴定(英文)

采用流式细胞术(flow cytometry, FCM)、简单重复序列(simple sequence repeat, SSR)和酶切扩增多型性序列(cleaved amplified polymorphic sequence, CAPS)等技术分析酸橙(Citrus aurantium L. )叶肉原生质体和甜橙(C. sinenis Osbeck cv. Shamouti)胚性愈伤组织原生质体电融合再生的体细胞杂种。FCM研究结果表明,所有的体细胞杂种植株荧光强度是二倍体对照的2倍,说明所分析的植株为四倍体。用SSR和CAPS分析了体细胞杂种的核质遗传组成,在试验的4对SSR引物中,有2对能区分开融合亲本。在2对引物中,体细胞杂种植株包含双亲的全部特异带,表明它们为异核杂种。通用引物扩增结合限制性内切酶酶切能鉴别融合亲本,在具有多型性的引物/酶组合中,所有体细胞杂种的线粒体和叶绿体DNA带型与胚性亲本(甜橙)完全一样。结果表明体细胞杂种核基因组来自双亲,而胞质基因组来自悬浮系亲本。讨论了所用技术的特点、柑橘四倍体体细胞杂种核质遗传规律及本组合体细胞杂种的应用。     

宜昌橙与伏令夏橙种间体细胞杂种

宜昌橙(Citrus ichangensis SwingIe)试管实生苗叶肉原生质体与伏令夏甜橙(C．Sin-ensis Osbeck)胚性悬浮细胞系原生质体,经聚乙二醇(PEG)诱导融合。再生出的胚状体为畸形,转移到生芽培养基中诱导产生丛芽。丛芽微嫁接在15天龄的枳壳砧上成为完整植株。幼叶染色体检查表明,两亲本均为二倍体2n=2x=18,融合后再生出的植株为四倍体2n=4x=36。过氧化物酶(POX)及谷草酰胺转氨酶(GOT)同工酶分析证明,这些四倍体均为体细胞杂种,它们同时含有双亲的酶带。杂种植株叶片形态更像甜橙。植株移八土壤后生长旺盛。     

甜橙与酸橙体细胞杂种核质组成鉴定

采用流式细胞术(flow cytometry,FCM)、简单重复序列(simple sequence repeat,SSR)和酶切扩增多型性序列(cleaved amplifiedpolymorphic sequence,CAPS)等技术分析酸橙(Citrus aurantium L.)叶肉原生质体和甜橙(C.sinenis Osbeck cv.Shamouti)胚性愈伤组织原生质体电融合再生的体细胞杂种.FCM研究结果表明,所有的体细胞杂种植株荧光强度是二倍体对照的2倍,说明所分析的植株为四倍体.用SSR和CAPS分析了体细胞杂种的核质遗传组成,在试验的4对SSR引物中,有2对能区分开融合亲本.在2对引物中,体细胞杂种植株包含双亲的全部特异带,表明它们为异核杂种.通用引物扩增结合限制性内切酶酶切能鉴别融合亲本,在具有多型性的引物/酶组合中,所有体细胞杂种的线粒体和叶绿体DNA带型与胚性亲本(甜橙)完全一样.结果表明体细胞杂种核基因组来自双亲,而胞质基因组来自悬浮系亲本.讨论了所用技术的特点、柑橘四倍体体细胞杂种核质遗传规律及本组合体细胞杂种的应用.     

澳洲指橘与柑橘属间原生质体电融合再生二倍体体细胞杂种

电场诱导粗柠檬（CitrusjambhiriLush,2n＝2x＝18）叶肉原生质体与澳洲指橘（MicrocitruspapuanaSwingle,2n＝2x＝18）悬浮系原生质体融合,融合产物培养后再生出丛芽,经试管嫁接得到完整植株。再生植株的细胞学检查表明它们具有18条染色体,为二倍体;植株的叶片形态与叶肉亲本（粗柠檬）一样;用6个10-mer随机引物分析再生植株的杂种特性：在4个引物（OPA－07、OPAN－07、OPE－05和OPA－08）的扩增带型图中,再生植株的带型与粗柠檬完全一样,澳洲指橘的特征带未在植株中出现;在引物OPS-13和引物OPA－04的扩增带型图中,再生植株都具有澳洲指橘的特征带。细胞学和RAPD分析的结果表明,通过对称融合得到了澳洲指橘与粗柠檬的属间二倍体体细胞杂种植株。这是柑橘属间对称融合再生二倍体叶肉亲本类型植株的首例报道。     

哈姆林甜橙与粗柠檬体细胞杂种的育性

对异源四倍体柑桔体细胞杂种“哈姆林甜橙+粗柠檬”及其亲本的花粉活力、花器官发育、花器官形态发生与花粉母细胞减数分裂四分体阶段进行了观测和统计.结果发现“哈姆林甜橙+粗柠檬”的花粉染色活力、萌发率、每花药中花粉粒数均居于其双亲之间,花器官发育及其形态发生具有双亲的特点.但小花粉及花粉母细胞减数分裂过程中形成的不正常四分体比率远远高于其双亲.以体细胞杂种“哈姆林甜橙+粗柠檬”为花粉亲本,与二倍体单胚类型宜昌橙与华农本地早的有性后代杂交,获得了110棵有性后代植株,其中三倍体82棵,二倍体和其它倍性的植株28棵.     

柑橘与枳属间体细胞杂种再生及其对脚腐病抗性的评价

Page橘柚 (CitrusreticulataBlanco×C .paradisiMacf.)胚性细胞悬浮系原生质体与枳 (Poncirustrifoliata (L .)Raf.)叶肉原生质体经电场诱导融合 ,4～ 5个月再生 15 0余棵小植株。再生植株根系发达 ,叶片具三叶特征。随机检查 2 0余株再生苗根尖染色体数目 ,表明都为四倍体 (2n =4x =36 )。随机取 7株进行RAPD分析 ,表明被检测植株都为杂种。用引起脚腐病的寄生疫霉菌 (PhytophthoraparasiticaDastar)毒素接种体细胞杂种及双亲叶片 ,结果表明 ,Page橘柚中度感病 ,枳高抗 ,体细胞杂种为抗病类型。     

Intergeneric Somatic Hybrid Plants Between Citrus and Poncirus trifoliata and Evaluation of Their Root Rot Resistance

Protoplasts of Page tangelo (Citrus reticulata Blanco×C. paradisi Macf.) cell suspension culture were electrically fused with mesophyll protoplasts isolated from trifoliate orange (Poncirus trifoliata (L.) Raf.). More than 150 plantlets regenerated after 4-5 months of culture. The regenerated plants were trifoliate with well developed root systems. Root-tip chromosome counting of more than 20 randomly selected plants revealed that they were all tetraploids (2n=4x=36). RAPD analysis of 7 randomly selected plants verified their hybridity. Inoculation of citrus Phytophthora parasitica Dastar toxin on leaves of somatic hybrids and both parental genotypes showed that Page tangelo was moderately susceptible, and trifoliate orange was highly resistant while the somatic hybrids were resistant. The potential of this somatic hybrid as rootstock is also discussed.     

粗柠檬与哈姆林甜橙二倍体体细胞杂种胞质基因组初步分析

RFLP (restriction fragment length polymorphism) was employed to analyze cytoplasmic genome of diploid somatic hybrid plant, morphologically similar to rough lemon which was leaf parent, that was produced via protoplast fusion between rough lemon (Citrus jambhiri Lush) and Hamlin sweet orange (C. sinensis Osb.), the embryogenic parent. Three enzyme-mitocondrial probe combinations and one enzyme-chloroplast probe combination demonstrated that the plant had identical band profiles to Hamlin sweet orange as far as mtDNA and cpDNA were concerned.     

Regeneration of Diploid Intergeneric Somatic Hybrid Plants Between Microcitrus a Electrofusion

Leaf-derived protoplasts of Rough lemon ( Citrus jambhiri Lush, 2n = 2x = 18) were electrofused with embryogenic suspension protoplasts of its relative, Microcitrus papuana 5wingle (2n = 2x = 18), with an intention of creating novel germplasm. Six plants were regenerated following protoplasts fusion. Cytological examination demonstrated that they were diploids with 18 chromosomes (2n = 2x = 18). RAPD (random amplified polymorphic DNA) analyses with six arbitrary 10-mer primers showed that the regenerated plants had identical band pattems to those of Rough lemon for primers OPA-07, OPAN-07, OPE-05 and OPA-08, whereas for the other two primers, OPA-04 and OPS-13, bands specific to M. papuana could be detected in the regenerated plants. Cytological and RAPD analysis revealed that the regenerated plants were diploid somatic hybrids between M. papuana and Rough lemon. The putative hybrids were morphologically similar to Rough lemon. This is the first report on production of diploid somatic hybrid plants between citrus with its related genus via symmetric fusion.     

原生质体融合获得柑桔种间体细胞杂种

粗柠檬(Citrus jambhiri Lush)叶肉原生质体与哈姆林甜橙(C.sinensis L.Osbeck)胚性悬浮细胞系原生质体经PEG诱导融合,培养7天时原生质体恢复分裂。再生的胚状体在含有GA_3的培养基中萌发出茎芽。茎芽经生根诱导成为完整植株。对首批再生的5棵植株进行染色体检查,结果表明,全为四倍体,2n=4x=36。淀粉胶电泳分析过氧化物酶同工酶,结果显示这5棵植株为体细咆杂种。粗柠檬和哈姆林甜橙在该位点上均为同质结合,基因型分别是MM和FF。体细胞杂种含有双亲的酶带,基因型为MMFF。杂种植株生长旺盛,根系发达,叶片及植株形态介于双亲之间。本文对其作为砧木品种的可能性等问题作了讨论。