广西柿种质资源遗传多样性及其对柿角斑病抗病性研究
|
摘要
广西是中国最大的柿产区之一,其悠久的柿栽培历史和独特的地理气候造就了丰富的柿种质资源。由于广西柿资源研究基础薄弱,种质信息缺乏,在一定程度上影响着广西柿种质资源的开发、利用和保护。为了揭示广西柿种质资源状况、遗传背景和多样性信息,为广西柿种质资源分类鉴定、开发利用与保护、引种驯化、抗病性早期鉴定、品种选育等提供依据,本文调查研究了广西柿种质资源和开发利用状况,收集不同生态气候区的柿种质资源并建立柿种质资源圃,运用表型系统聚类分析和模糊综合评价法对柿种质资源进行多样性研究和综合评价,利用目标起始密码子多态性分子标记(SCoT)和简单重复序列分子标记(SSR)对柿种质资源进行遗传多样性分析;同时在开展柿角斑病自然发病调查和病菌接种鉴定的基础上研究了柿种质叶片SOD、POD、CAT、PAL酶活性和MDA、GSH、叶绿素含量的变化与抗病性的关系,并首次运用改良的cDNA-SCoT技术对柿种质角斑病抗病性进行基因差异表达研究。主要研究结论如下:
1、广西柿种质资源调查及开发利用现状
调查、考察和收集广西不同生态气候区的柿种质资源并进行分类研究,收集到柿属植物中柿、君迁子、油柿、乌柿、毛柿和野柿5个种1个变种的104份种质,在广西大学建立了柿种质资源圃,为广西柿种质资源开发利用、引种驯化、种质保存和品种选育提供了材料和依据。调查发现近年广西柿生产取得迅速发展,在柿种植面积和投产面积变化不大的情况下,平均单位面积产量、总产量和产值均逐年增加,但广西柿产业在发展过程中仍存在柿种质资源开发和利用不充分、品种单一和结构不合理、标准化生产程度低、贮藏保鲜和加工产业链不深化及加工产品单一等问题,据此提出了促进广西柿产业发展的对策。
2、广西柿种质资源表型多样性分析与综合评价
广西柿种质资源在表型上具有丰富的遗传多样性,所选用的44个表型性状间的欧氏距离较远,各性状间相对独立,在柿种质分类中具有较好的辨别能力。表型系统聚类分析能将一些具有相似特征的柿种质聚在一起,可作为柿品种分类的重要依据,但在进一步明确亲缘关系时,还有赖于分子标记等其它分类和鉴定途径的有机结合。对不同柿种质的模糊综合评价结果表明,Yueshi、Niuxinshi、Dafangshi、Jingshi、Jixinshi、Xiaofangshi和Huoshi等柿品种及一些实生单株的模糊综合评价指数较高,它们的果实综合性状表现较优,建议作为优良品种和单株加以开发和利用;部分单个性状比较优良的实生单株虽不适合于直接推广种植,但可作为柿品种改良的资源加以利用。
3、广西柿种质资源分子标记遗传多样性分析
本研究首次利用SCoT分子标记技术对广西不同生态气候区的柿种质资源进行遗传多样性分析,并与SSR分子标记分析结果进行比较研究,结果表明:两种标记结果虽有一定的差异,但从总体上来看结果大致相同;两种分子标记都可以将供试材料分开,可以作为柿种质资源分类的有力工具。UPGMA聚类分析表明,广西柿种质资源具有丰富的遗传多样性,柿、油柿和君迁子分别聚到不同的组,野柿与柿种质间有交叉现象出现。广西各野生柿居群遗传背景宽广,多样性较为丰富,由于多山的地形和较高的海拔等原因使居群间的基因交流比较少,各居群间产生较大程度的遗传分化。
4、广西柿种质资源角斑病抗病性研究
不同柿种质间的抗病性差异比较大,总体上柿栽培品种和野柿种质对角斑病的抗性或耐性比较强,油柿和君迁子的抗病性比较弱。柿叶片接种角斑病菌后各种质SOD. POD、PAL酶活性和MDA含量均升高并呈一定规律的变化,这些指标的变化与柿种质间的抗病性存在相关性;CAT活性和GSH含量也呈现一定规律的变化,但这两个指标的变化与寄主的抗病性关系不密切。采用cDNA-SCoT技术对柿角斑病抗病相关基因进行差异显示分析,结果表明SCoT分子标记技术能够与柿叶片角斑病侵染应答产生关联,共获得13个柿叶片角斑病侵染相关基因片段,其中7个基因片段与已知的基因具有较高的同源性,包括一些在植物逆境反应中起重要作用的基因,其它6个基因差异片段在数据库中未找到已知功能的同源序列。
Guangxi is one of the biggest persimmon production areas in China, it possesses ample persimmon germplasm resources due to its long histry of persimmon production and special geographical climate. The basis of research on persimmon resources in Guangxi is weak and the germplasm information is lack, which affects the exploitation, utilization and protection of persimmon germplasm resources in Guangxi. In order to reveal the situation, genetic background and diversity information of germplasm resources and provide the scientific basis of classification, preservation, utilization, introduction, early identification of disease resistance and breeding of persimmon germplasms in Guangxi, the study was conducted to investigate persimmon resources in Guangxi and their utilization condition. The persimmon germplasm resources from different eco-climatic zones were collected and preserved at the persimmon germplasm repository. Morphologic system cluster and fuzzy comprehensive evaluation analysis methods were used to analyze the diversity and comprehensive characters of the gernplasms. SCoT and SSR molecular markers technologies were used to study the diversity of the persimmon germplasm resources as well. Mean while, the effect of SOD, POD, CAT, PAL, MDA and GSH of persimmon leaves on the resistance of angular leaf spot disease were studied on the basis of survey of natural occurrence and artificial inoculation. cDNA-SCoT method was firstly used in persimmon germplasm research and studied the different expression of genes between the susceptive and resistant germplasms; the purpose of the study is to provide scientific basis of classification, preservation, utilization, introduction, early identification of resistance and breeding of persimmon germplasms. The Main conclusions are as follows:
1. The Investigation of persimmon germplasm resources in Guangxi and its development and utilization state
In order to provide materials and basis for persimmon resources utilization, introduction and domestication, conservation and breeding, the persimmon germplasm resources from different eco-climatic zones in Guangxi were surveied and investigated,104accessions of germplasms which belong to Diospyros. kaki Thunb., Diospyros.lotus Linn, Diospyros. oleifera Cheng., Diospyros. glaucifolia Mete, Diospyros. Virniana Liun. and Diospyros. rhombifolia Hems were collected, they were preserved in the persimmon germplasm repository in Guangxi university. The investigation indicated that the persimmon industry in Guangxi have got a rapid development in recent years, the change of persimmon planting area and production area was small, but the total yield and average yield per unit were increasing yearly. Meanwhile, there were some problems in the persimmon industry in Guangxi, such as the exploitation and utilization of persimmon germplasm resources was insufficient, and with single variety, unreasonably growing structure, low degree of cultivation standardization, the storage and processing was not deep and the processing products were few; for thess reasons, countermeasures to promote the development of persimmon industry in Guangxi were put forward.
2. Analysis and comprehensive evaluation of the genetic diversity of persimmon Germplasm resources in Guangxi
The persimmon germplasm resources in Guangxi possessed ample diversity in phenotype, the Euclidean distances between44phenotypic traits used in the study were far, which indicated that these traits were independent and could distinguish the persimmon germplasms well. Phenotypic cluster analysis could cluster some germplasms which possessed some similar characteristics together, it could be important basis for classification of persimmon cultivars. Owing to the shortcoming of the phenotypic cluster analysis, it had better combined with some other identification methods to further distinguish the relationship, such as molecular markers. The result of fuzzy comprehensive evaluation analysis showed that the fuzzy comprehensive evaluation index of persimmon cultivars Yueshi, Niuxinshi, Dafangshi, Jingshi, Jixinshi, Xiaofangshi Huoshi and some seedlings were high, their fruit comprehensive characters were excellent, it's suggested that these excellent varieties and seedling should be used in the persimmon exploitation and utilization. Some excellent seedling which possessed excellent single trait was not suitable for direct planting, but they could be used as materials in persimmon cultivar improvement.
3. The genetic diversity of persimmon germplasm resources in Guangxi revealed by molecular markers
The persimmon germplasm resources collected from different eco-climatic zones in Guangxi were analysized and identified by start condone targeted (SCoT) polymorphism molecular marker; they were compared with SSR molecular markers. The result showed there were some differences between SCoT and SSR molecular markers, but the results of the two methods are consistent in whole; two molecular markers methods could distinguish the germplasms from each other, they could be used as powerful tools in the classification of persimmon germplasm resources. The cluster analysis conducted by UPGMA showed that the genetic diversity of persimmon germplasm resources in Guangxi was ample, the germplasms belong to Diospyros. kaki Thunb., Diospyros. oleifera Cheng, and Diospyros.lotus Linn were clustered into different groups, there was a crossover among Diospyros. kaki Thunb. and Diospyros. Virniana Liun. Guangxi natural persimmon germplasm resources possessed broad background and the genetic diversity was abundant; a great degree of genetic differentiation happened among the populations, it might due to the destruction of inhabit environment and the gene flow being blocked.
4. Research on the resistance to persimmon angular leaf spot diease of persimmon germplasm resouces in Guangxi
There was ample diversity of resistance to persimmon angular leaf spot disease among different persimmon germplasms. Germplasms of Diospyros. kaki Thunb and some Diospyros. Virniana Liun seedlings had good resistance to angular leaf spot disease. The content or activity of SOD, POD, PAL, MDA in leaves of each persimmon germplasms increased and showed certain patterns, which indicated that the changes of activity or content of these enzyme was related to the resistance to angular leaf spot disease. The changes of CAT activity and GSH content also had some certain regularity, but they weren't related to angular leaf spot disease resistance of susceptibility and resistance persimmon germplasms. Gene differential expression of susceptive and resistant persimmon germplasms was studied by cDNA-SCoT technology, the result showed that SCoT molecular marker technology could be associated with persimmon leaf spot disease stress response,13gene fragments related with persimmon angular leaf spot disease stress were obtained,7of them had a high homology with the known genes including some genes which played important roles in plant stress defence. The other6differential expression fragments had no homologous sequences with known function in the database.
1、广西柿种质资源调查及开发利用现状
调查、考察和收集广西不同生态气候区的柿种质资源并进行分类研究,收集到柿属植物中柿、君迁子、油柿、乌柿、毛柿和野柿5个种1个变种的104份种质,在广西大学建立了柿种质资源圃,为广西柿种质资源开发利用、引种驯化、种质保存和品种选育提供了材料和依据。调查发现近年广西柿生产取得迅速发展,在柿种植面积和投产面积变化不大的情况下,平均单位面积产量、总产量和产值均逐年增加,但广西柿产业在发展过程中仍存在柿种质资源开发和利用不充分、品种单一和结构不合理、标准化生产程度低、贮藏保鲜和加工产业链不深化及加工产品单一等问题,据此提出了促进广西柿产业发展的对策。
2、广西柿种质资源表型多样性分析与综合评价
广西柿种质资源在表型上具有丰富的遗传多样性,所选用的44个表型性状间的欧氏距离较远,各性状间相对独立,在柿种质分类中具有较好的辨别能力。表型系统聚类分析能将一些具有相似特征的柿种质聚在一起,可作为柿品种分类的重要依据,但在进一步明确亲缘关系时,还有赖于分子标记等其它分类和鉴定途径的有机结合。对不同柿种质的模糊综合评价结果表明,Yueshi、Niuxinshi、Dafangshi、Jingshi、Jixinshi、Xiaofangshi和Huoshi等柿品种及一些实生单株的模糊综合评价指数较高,它们的果实综合性状表现较优,建议作为优良品种和单株加以开发和利用;部分单个性状比较优良的实生单株虽不适合于直接推广种植,但可作为柿品种改良的资源加以利用。
3、广西柿种质资源分子标记遗传多样性分析
本研究首次利用SCoT分子标记技术对广西不同生态气候区的柿种质资源进行遗传多样性分析,并与SSR分子标记分析结果进行比较研究,结果表明:两种标记结果虽有一定的差异,但从总体上来看结果大致相同;两种分子标记都可以将供试材料分开,可以作为柿种质资源分类的有力工具。UPGMA聚类分析表明,广西柿种质资源具有丰富的遗传多样性,柿、油柿和君迁子分别聚到不同的组,野柿与柿种质间有交叉现象出现。广西各野生柿居群遗传背景宽广,多样性较为丰富,由于多山的地形和较高的海拔等原因使居群间的基因交流比较少,各居群间产生较大程度的遗传分化。
4、广西柿种质资源角斑病抗病性研究
不同柿种质间的抗病性差异比较大,总体上柿栽培品种和野柿种质对角斑病的抗性或耐性比较强,油柿和君迁子的抗病性比较弱。柿叶片接种角斑病菌后各种质SOD. POD、PAL酶活性和MDA含量均升高并呈一定规律的变化,这些指标的变化与柿种质间的抗病性存在相关性;CAT活性和GSH含量也呈现一定规律的变化,但这两个指标的变化与寄主的抗病性关系不密切。采用cDNA-SCoT技术对柿角斑病抗病相关基因进行差异显示分析,结果表明SCoT分子标记技术能够与柿叶片角斑病侵染应答产生关联,共获得13个柿叶片角斑病侵染相关基因片段,其中7个基因片段与已知的基因具有较高的同源性,包括一些在植物逆境反应中起重要作用的基因,其它6个基因差异片段在数据库中未找到已知功能的同源序列。
Guangxi is one of the biggest persimmon production areas in China, it possesses ample persimmon germplasm resources due to its long histry of persimmon production and special geographical climate. The basis of research on persimmon resources in Guangxi is weak and the germplasm information is lack, which affects the exploitation, utilization and protection of persimmon germplasm resources in Guangxi. In order to reveal the situation, genetic background and diversity information of germplasm resources and provide the scientific basis of classification, preservation, utilization, introduction, early identification of disease resistance and breeding of persimmon germplasms in Guangxi, the study was conducted to investigate persimmon resources in Guangxi and their utilization condition. The persimmon germplasm resources from different eco-climatic zones were collected and preserved at the persimmon germplasm repository. Morphologic system cluster and fuzzy comprehensive evaluation analysis methods were used to analyze the diversity and comprehensive characters of the gernplasms. SCoT and SSR molecular markers technologies were used to study the diversity of the persimmon germplasm resources as well. Mean while, the effect of SOD, POD, CAT, PAL, MDA and GSH of persimmon leaves on the resistance of angular leaf spot disease were studied on the basis of survey of natural occurrence and artificial inoculation. cDNA-SCoT method was firstly used in persimmon germplasm research and studied the different expression of genes between the susceptive and resistant germplasms; the purpose of the study is to provide scientific basis of classification, preservation, utilization, introduction, early identification of resistance and breeding of persimmon germplasms. The Main conclusions are as follows:
1. The Investigation of persimmon germplasm resources in Guangxi and its development and utilization state
In order to provide materials and basis for persimmon resources utilization, introduction and domestication, conservation and breeding, the persimmon germplasm resources from different eco-climatic zones in Guangxi were surveied and investigated,104accessions of germplasms which belong to Diospyros. kaki Thunb., Diospyros.lotus Linn, Diospyros. oleifera Cheng., Diospyros. glaucifolia Mete, Diospyros. Virniana Liun. and Diospyros. rhombifolia Hems were collected, they were preserved in the persimmon germplasm repository in Guangxi university. The investigation indicated that the persimmon industry in Guangxi have got a rapid development in recent years, the change of persimmon planting area and production area was small, but the total yield and average yield per unit were increasing yearly. Meanwhile, there were some problems in the persimmon industry in Guangxi, such as the exploitation and utilization of persimmon germplasm resources was insufficient, and with single variety, unreasonably growing structure, low degree of cultivation standardization, the storage and processing was not deep and the processing products were few; for thess reasons, countermeasures to promote the development of persimmon industry in Guangxi were put forward.
2. Analysis and comprehensive evaluation of the genetic diversity of persimmon Germplasm resources in Guangxi
The persimmon germplasm resources in Guangxi possessed ample diversity in phenotype, the Euclidean distances between44phenotypic traits used in the study were far, which indicated that these traits were independent and could distinguish the persimmon germplasms well. Phenotypic cluster analysis could cluster some germplasms which possessed some similar characteristics together, it could be important basis for classification of persimmon cultivars. Owing to the shortcoming of the phenotypic cluster analysis, it had better combined with some other identification methods to further distinguish the relationship, such as molecular markers. The result of fuzzy comprehensive evaluation analysis showed that the fuzzy comprehensive evaluation index of persimmon cultivars Yueshi, Niuxinshi, Dafangshi, Jingshi, Jixinshi, Xiaofangshi Huoshi and some seedlings were high, their fruit comprehensive characters were excellent, it's suggested that these excellent varieties and seedling should be used in the persimmon exploitation and utilization. Some excellent seedling which possessed excellent single trait was not suitable for direct planting, but they could be used as materials in persimmon cultivar improvement.
3. The genetic diversity of persimmon germplasm resources in Guangxi revealed by molecular markers
The persimmon germplasm resources collected from different eco-climatic zones in Guangxi were analysized and identified by start condone targeted (SCoT) polymorphism molecular marker; they were compared with SSR molecular markers. The result showed there were some differences between SCoT and SSR molecular markers, but the results of the two methods are consistent in whole; two molecular markers methods could distinguish the germplasms from each other, they could be used as powerful tools in the classification of persimmon germplasm resources. The cluster analysis conducted by UPGMA showed that the genetic diversity of persimmon germplasm resources in Guangxi was ample, the germplasms belong to Diospyros. kaki Thunb., Diospyros. oleifera Cheng, and Diospyros.lotus Linn were clustered into different groups, there was a crossover among Diospyros. kaki Thunb. and Diospyros. Virniana Liun. Guangxi natural persimmon germplasm resources possessed broad background and the genetic diversity was abundant; a great degree of genetic differentiation happened among the populations, it might due to the destruction of inhabit environment and the gene flow being blocked.
4. Research on the resistance to persimmon angular leaf spot diease of persimmon germplasm resouces in Guangxi
There was ample diversity of resistance to persimmon angular leaf spot disease among different persimmon germplasms. Germplasms of Diospyros. kaki Thunb and some Diospyros. Virniana Liun seedlings had good resistance to angular leaf spot disease. The content or activity of SOD, POD, PAL, MDA in leaves of each persimmon germplasms increased and showed certain patterns, which indicated that the changes of activity or content of these enzyme was related to the resistance to angular leaf spot disease. The changes of CAT activity and GSH content also had some certain regularity, but they weren't related to angular leaf spot disease resistance of susceptibility and resistance persimmon germplasms. Gene differential expression of susceptive and resistant persimmon germplasms was studied by cDNA-SCoT technology, the result showed that SCoT molecular marker technology could be associated with persimmon leaf spot disease stress response,13gene fragments related with persimmon angular leaf spot disease stress were obtained,7of them had a high homology with the known genes including some genes which played important roles in plant stress defence. The other6differential expression fragments had no homologous sequences with known function in the database.
引文
[1]陈河龙,郭朝铭,刘巧莲,等.第三届全国生物入侵大会(全球变化与生物入侵),2010
[2]陈虎.龙眼种质资源遗传多样性分析及低温对石硖龙眼影响研究.广西大学博士论文,2012
[3]陈惠明,刘敬业,冉邦定,等.烤烟感染赤星病后4种酶动态的研究.云南农业大学学报,1995,10(1):1-6
[4]陈建业.柿品种鉴定及分类研究进展.山东林业科技,2007,(4):60-64
[5]陈杰忠.果树栽培学各论.北京:中国农业出版社,2003:280-285
[6]陈少裕.膜脂过氧化对植物细胞的伤害.植物生理学通讯,1991,27(2):84-90
[7]陈香玲,李杨瑞,杨丽涛,等.低温胁迫下甘蔗抗寒相关基因的cDNA-SCOT差异显示.生物技术通报.2010a,8:120-124
[8]陈香玲,李杨瑞,杨丽涛,等.cDNA-SCOT基因差异表达两种电泳方法的比较研究.生物技术通报,2010b,10:93-95
[9]邓立宝,何新华,张允伟,等.广西桂林市柿子种质资源初步调查与丌发利用现状.安徽农业科学,2010,38(16):8372-8373
[10]邓立宝,何新华,李天文,胡颖.广西西北部高原地区柿种质资源调查及遗传多样性分析.园艺学报,2012,39(2):215-224
[11]董继新,董海涛,何祖华等.一个水稻与稻瘟病菌(Magna Porthegrisea)互作相关新基因的克隆.农业生物技术学报,2001,9(1):41-44
[12]杜晓云,罗正荣.部分柿属植物IRAP反应体系的建立和指纹图谱构建.农业生物技术学报,2006,14(6):931-936
[13]杜晓云,张梦思,罗正荣,张青林.ISTR在部分柿属植物种质鉴定和亲缘关系分析中的应用.园艺学报,2009,36(4):481-486
[14]杜晓云,张青林,黄建民,罗正荣.SSAP逆转座子分子标记在柿属植物遗传分析中的应用.农业生物技术学报,2010,18(4):682-688
[15]杜晓云.系列逆转座子分子标记的建立及其在柿属植物中的应用研究.华中农业大学博士论文,2008
[16]范海延,陈捷,邵美妮等.白粉病菌胁迫下黄瓜R17抗病品系叶片蛋白质组分析.园艺学报,2009,36(6):829-834
[17]范尉尉,马春红,董文琦,等.棉花根部损伤程度对感染黄萎病菌后体内抗性酶的影响.中国农业科学,2006,39(12):2483-2490
[18]冯涛.新疆野苹果(Malus sieversii (Ledeb.) Roem.)部分表型遗传多样性研究.山东农业大学博士论文,2007
[19]高静.疏棉状嗜热丝孢菌Thermomyces lanuginosus超氧化物歧化酶的分离纯化及性质研究.山东农业大学硕士论文,2003
[20]郭大龙.几种分子标记技术的建立及其在部分柿属植物亲缘关系研究中的应用.华中农业大学博士论文,2006
[21]郭大龙,罗正荣.柿和君迁子SSR分析技术的建立.农业生物技术学报,2004,12(4):386-389
[22]郭大龙,罗正荣.一种利用ISSR开发SSR引物的方法.植物生理学通讯,2006,42(2):268-270
[23]郭大龙,罗正荣.部分柿属植物SRAP-PCR反应体系的优化.果树学报,2006,23(1):138-141
[24]郭红莲,程根武,陈捷,等.玉米灰斑病抗性反应中酚类物质代谢作用的研究.植物病理学报,2003,33(4):343-346
[25]韩凤鸣.百合营养系变异体的鉴定.西北农林科技大学硕士论文,2006
[26]贺贤臣.SDR蛋白家族结构和底物特异性研究及应用.北京大学硕士论文,2008
[27]侯沛,张显.11个小果型西瓜材料模糊综合评判.中国蔬菜,2009,1(12):53-58
[28]胡德昌.柿及其部分近缘种mtDNA和cpDNA多态性分析.华中农业大学博士论文,2007
[29]黄飞,宋瑞芳,丁永乐.烟草苗期抗CMV生理生化研究.江西农业大学学报,2010,32(2):276-282
[30]黄良飞,刘助生.恭城月柿产业化现状调查与发展对策.中国果树,2007,(4):56-60
[31]贾东升.小麦抗旱相关转录因子基因TaMyb2s的克隆及功能验证.西北农林科技大学硕士论文,2008
[32]廖靖军,安成才,吴思,陈章良.查尔酮合酶基因在植物防御反应中的调控作用.北京大学学报(自然科学版),2000,36(4):566-575
[33]罗聪.芒果SCoT分子标记与逆境和重要开花时间相关基因研究.广西大学博士论文,2012
[34]罗聪,蒋雅琴,高美萍等.杧果叶绿素a/b结合蛋白基因cDNA全长克隆及其序列分析.果树学报2010,27(3):441-444
[35]罗正荣,米森敬三,杉浦明.应用RAPD技术研究柿品种间的亲缘关系.果树科学,1998,15(4):311-316
[36]罗正荣,张青林.第三届国际柿学术研讨会.2005
[37]罗正荣,张青林.第五届国际柿学术研讨会.2012
[38]罗正荣.中国甜柿的特点及其在世界甜柿基因库中的地位.第五届全国柿生产和科研进展研讨会,2011
[39]罗正荣.柿的特点及其研究课题.首届全国柿生产和科研进展研讨会,2011
[40]罗正荣,蔡礼鸿,胡春根.柿属植物种质资源及其利用研究现状.华中农业大学学报,1996,(19):381-388
[41]李淼,檀根甲,承河元等.植物抗病性研究现状与前景展望.江西农业大学学报(自然科学版),2002,24(5):731-736
[42]李少旋,高东升,李玲,等.不同粗皮病诱因对苹果叶片相关保护酶的影响.中国农学通报,2011,27(6):166-170
[43]李树钢.中国植物志.北京:科学出版社,1987
[44]李艳萍.水稻抗瘟基因部分序列的克隆及同源性分析.华南热带农业大学硕士论文,2003
[45]林贻卿.不同时期刈割对互花米草根系生理影响的研究.福建师范大学硕士论文,2008
[46]李文谦.盾叶薯蓣细胞及内生真菌共培养机制研究.南京工业大学硕士论文,2004
[47]刘太国,李永镐,陈万权.水杨酸对感染TMV烟草叶片PAL活性的影响.西北农林科技大学学报,2005,33:111-114
[48]刘月梅,自卫东,鲁周民,等.我国柿子加工研究进展.西北林学院学报,2007,22(2):152-155
[49]刘磊.TMV侵染烟草基因差异表达的DNA-AFLP分析.黑龙江八一农垦大学硕士论文,2010
[50]马淑娟.棉花叶绿体Cu/Zn-SOD基因植物表达载体的构建及转化.华中农业大学 硕士论文,2007
[51]马彦.柿叶的化学成分研究进展.中山大学研究生学刊(自然科学版),2004,25(1):10-16
[52]麦维军,王颖,梁承邺,张明永.谷肤甘肤在植物抗逆中的作用.广西植物,2005,25(6):570-575
[53]茆振川,谢丙炎,杨宇红等.辣椒N基因介导抗根结线虫作用早期表达基因的抑制性消减杂交SSH分析.园艺学报,2007,34(3):629-636
[54]明军,张启翔,张义等.园林及园艺植物品种鉴定常规技术研究进展.世界林业研究,2002,15(6):14-19
[55]潘德森,欧阳绍湘,王希群,等.关于将“罗田甜柿”更名为“中国甜柿”的建议.湖北林业科技,2002,(2):27-28
[56]彷岛善次.柿和人生.东京:明玄书房,1980,1445
[57]阙友雄,许莉萍,陈如凯.对甘蔗受黑穗病菌侵染后差异表达基因的分离与鉴定.作物学报,2009,35(3):452-458
[58]任爱霞,胡家恕,祝水金.棉花黄萎病抗性与过氧化物酶同工酶分析.棉花学报,2002,14:273-276
[59]任志莹;杨立国;肖军等.植物基因分离的抑制消减杂交PCR.辽宁农业科学,2008(1):41-43
[60]阮妙鸿,王伟,邱永祥,等.甘薯抗薯瘟病的水杨酸与活性氧的代谢变化.热带作物学报,2008,29(1):15-17
[61]商闯,马春红,翟彩霞,等.丙二醛(MDA)含量在玉米诱导抗病过程中的变化.华北农学报,2007,22:29-32
[62]沈红霞,占卫国,占燕.柿资源的研究现状.安徽农业科学,2009,37(23):10967-1096
[63]沈永宝,施季森.植物种或品种鉴定的展望.江苏林业科技,2004,31(5):41-45
[64]沈庆庆.桂西南早熟荔枝实生资源调查及遗传多样性研究.广西大学硕士论文,2011
[65]盛敬伟,徐萍,李学林.柿叶的药用.河南中医药学刊,1995,10(6):24-33
[66]石瑞婷,王文江,刘永居.国内外柿品种选育研究进展.第四届全国干果生产、科研进展研讨会论文集,2005
[67]孙厚俊,刘美艳,宗玮玮,赵永强,陈晓宇,谢逸萍.黑斑病对甘薯体内几种保护酶活性的影响.广西农学报,2011,26(3):14-19
[68]孙小霞,王海斌,何海斌,等.田间旱育条件下不同化感潜力水稻的生理特性分析.中国生态农业学报,2011,19(3):650-654
[69]宋蓓.枣DNA-AFLP技术体系优化及其在抗枣疯病相关基因片段筛选中的应用.河北农业大学硕士论文,2007
[70]汤华,帅爱华,向福英.植物基因差异表达的研究方法及进展.海南大学学报(自然科学版),2006,24(3):309-316
[71]陶金华,刘岱,陈发河.炭疽病菌侵染对枇杷果实病程相关酶.天津农业科学,2011,17(5):1-4
[72]田昕.不同枣树品种果实结构和酶活性与缩果病抗性关系分析.北京林业大学硕士论文,2012
[73]童敏.浙江省柿树遗传多样性与种质鉴定研究.浙江林学院硕士论文,2007
[74]欧阳光察,薛应龙.植物苯丙烷类代谢的生理意义及调控.植物生理学通讯,1988,(3):9-16
[75]王万双,罗正荣,蔡礼鸿.柿品种鉴定及分类研究进展.园艺学报,1998,25:44-50
[76]王华瑞.柿子长期保鲜技术研究.中国农业大学硕士论文,2003
[77]王金胜,郭春绒,张映.农业生物化学技术.太原:山西科学技术出版社,1997
[78]王立新,苏青.过氧化物酶同工酶电泳技术在冬小麦抗白粉病鉴定中的应用.华北农学报,1996,11(1):30-35
[79]王仁梓.甜柿生产中的问题与对策.第五届全国柿生产和科研进展研讨会,2011
[80]王仁梓.柿种质资源研究.陕西果树所建所三十年和陕西果品研究中心成立科学研究论文集,1989:25-27
[81]王仁梓.柿.北京:农业出版社,1987
[82]王倩.中国野生毛葡萄抗黑痘病抑制消减杂交文库构建及表达序列标签(ESTs)分析.西北农林科技大学硕士论文,2011
[83]王永成,巩振辉,李大伟.S王永成.利用mRNA差异显示技术克隆辣椒抗疫病相关基因片段.北方园艺,2008,(12):149-152
[84]王伟,张军科,王跃进,等.白粉菌对葡萄叶片生理特性的影响.北方园艺,2010,9:14-17
[85]吴耕民.中国温带果树分类学.北京:中国农业出版社,1984:56-60
[86]吴金华,胡银岗,张宏,等.小麦种质N9436抗白粉病的特异基因表达谱分析.作 物学报,2008,34(7):1143-1152
[87]巫燕.广西平乐恭城柿子产业发展现状与对策[J].广西热带农业,2007(1):15
[88]徐莉清.部分中国原产柿属雄性种质的生物学特性及其新种质创制的研究.华中农业大学博士论文,2008
[89]徐明庆.人工云杉幼林落针病几种重要生理生化指标变化的研究.四川农业大学硕士论文,2009
[90]许丽萍,陈如凯.甘蔗黑穗病及其抗病育种的现状与展望.福建农业大学学报,2000,15(2):26-31
[91]许健康,汪树人,罗靓亮,等.徽州鸡公尖灯笼柿及栽培技术.中国林副特产,2012,3(118): 40-42
[92]许勇,王永健,葛秀春,等.枯萎病菌诱导的结构抗性和相关酶活性变化与西瓜枯萎病抗性的关系.果树科学,2000,17(2):123-127
[93]杨勇,阮小凤,王仁梓,李高潮.单宁细胞形态与部分柿属种及品种相关性研究.西北植物学报,2007,27(8):1524-1530
[94]杨勇,阮小凤,王仁梓,李高潮.柿种质资源及育种研究进展.西北林学院学报,2005,20:133-137
[95]杨勇,王仁梓,李高潮.柿种质资源描述规范和数据标准.中国农业出版社,2006
[96]杨勇,王仁梓,李高潮,等.柿属植物及柿品种染色体数目研究.西北农业学,1999,8(3):64-67
[97]杨小丽,马俊义,胡白石,陈涛,李晓霞.不同哈密瓜品种苗期对细菌性果斑病的抗病性鉴定.新疆农业科学,2008,45(3):452-455
[98]叶央芳,闵航,吕镇梅.除草剂苯噻草胺污染对多食鞘氨醇杆菌(Sphingobac terium multivolum)抗氧化酶和ATP酶的影响.环境科学学报,2006,26(1):151-156
[99]远藤融郎.柿品种与栽培.东京:农山渔村文化协会,1982
[100]詹少华,林毅,吕凯.天然彩色棉过氧化物酶、丙二醛及硝酸还原酶的测定.安徽农业科学,2005,33(1):17-18
[101]张春生.燕麦光周期不敏感基因克隆与分析.吉林大学博士论文,2012
[102]张岗,董艳玲,夏宁,张毅等.利用cDNA-AFLP技术分析小麦成株抗条锈性差异基因表达特征.作物学报,2010,36(3):401-409
[103]张桂霞.柿(Diospyros kaki L)AFLP体系的建立及其优良品种指纹.河北农业大学 硕士论文,2003
[104]张建国.果树的抗病性研究进展.经济林研究,2003,21(1):67-70
[105]张静妮.不同秋眠等级苜蓿匍柄霉叶斑病抗性评价及抗病机理研究.北京林业大学博士论文,2008
[106]张君诚,官德义.mRNA差异显示技术在植物抗逆抗病机理研究中的应用.生物学报,2003,22(4):364-367
[107]张丽丽,师校欣,杜国强,王惠英.植物抗病机制及果树抗病育种研究进展.华北农学报,2006,21(增刊):175-179
[108]张淑珍,徐鹏飞,吴俊江,等.大豆疫霉根腐病菌诱导下SSH文库构建及初步分析.大豆科学,2008,27(3):543-545
[109]张青林,罗正荣.柿属植物ISSR分析技术的建立.农业生物技术学报,2004,12(5):521-525
[110]张青林.完全甜柿及部分雄性种质的亲缘关系研究.华中农业大学博士论文,2006
[111]张玉经,王昆,王忆,等.苹果种质资源果实轮纹病抗性的评价.园艺学报,2010,37(4):530-546
[112]张云.N-酰基乙醇胺延缓香石竹切花(Dianthus caryophyllus L.)衰老机理的研究.南京农业大学博士论文,2006
[113]赵献民,龚榜初,吴开云,熊春艳,胡青素.柿育种研究的现状与进展.湖南农业科学,2011,21(4):21-24
[114]郑炳松.现代植物生理生化研究技术.北京:气象出版社,2006
[115]曾永三,王振中.苯丙氨酸解氡酶在植物抗病反应中的作用.仲恺农业技术学院学报,1999,12(3):56-65
[116]庄东红,石田雅士.柿.汕头大学学报,1995,10(1):42-47
[117]周变华,王宏伟,杨自军,等.抑制性消减杂交技术及其应用研究进展.河南农业科学,2011,40(12):410-42
[118]周祖富,黎兆安.植物生理学实验指导.北京:高等教育出版社,2005
[119]朱龙付.棉花遗传多样性研究及抗黄萎病相关基因的克隆与分析.武汉:华中农业大,2004
[120]朱元娣,孙凌霞,李春雨,等.利用c DNA-AFLP技术研究苹果柱型与非柱型cDNA的差异表达.园艺学报2007,34(2):283-288
[121]左大勋,柳鎏,王希蕖.我国柿属植物资源的地理分布及利用.中国果树,1984,(3):27-34
[122]Akter M S, Eun J B. Characterization of insoluble fibers prepared from the peel of ripe soft persimmon(Diospyros kaki L. cv.Daebong). Food Sci. Biotechnol,2009, 18:1545-1547
[123]Alexandrova K S, Conger B V. Isolat ion of two somat ic embryogenes is related genes from orchardgrass (Dactylis glomerata).Plant Science,2002,162:301-307
[124]Asthir B, Koudsl L A, Baind N S, et al. Stimulation of antioxidative enzymes and polyamines during stripe rust disease of wheat. Bioloia plantarum,2010,54 (2):329-333
[125]Atanassov H, Pittman J K, Turner S R. Elucidating the mechanisms of assembly and subunit interaction of the cellulose synthase complex of Arabidopsis secondary cell walls. Journal of Biological Chemistry,2009,284(6):3833-3841
[126]Caffarri S, Croce R, Catt i velli L, e t al. A look within LHC Ⅱ: different ial analysis of the Lhcb1-3 complexes building the major trimericantenna complex of higher -plant photosynthesis. Biochemi try,2004,43:9467-94761
[127]Bachem CW B, H oevan R S, B ru i jn ZM, V reugdenh ilD, ZabeauM, V isser R G F, De Bruijn SM.1996. V isualization of differential gene expression using a novel method of RNA fingerprin ting based on AFLP:analysis of gene expression during potato tuber development. Plant Journa,19:745-753.
[128]Beardmore J. Cell wall hydroxyproline enhancement and lignin depositionas as an early event in the resistance of cucumber to Caldosporium cucumberinum. Physiological Plant Pathology,1984, (24):43-47.
[129]Bellini E, Giannelli G, Villa S. Oriental persimmon for the obtaining of new PCNA cultivars. Abstr 23th lnt Hort Congr,1990, (2):30-49
[130]Bellini E, Giordani E. Germplasm conservation of persimmon in europe. Acta Horticulturae,2003,601:37-46
[131]Beyer K, Binder A, Boller T, et al. Ident ificat ion of potatogenes induced during colonizat ion by P hytoph thora inf estans.Molecular Plant Pathology,2001,2:125-134
[132]Brugm an s B, Fernandez del Carm en A, Bachem CW B, van OsH, V isser R G F. 2002. A novel method for th e construct ion of genome wide transcriptome maps. Plan t Journa,131:211-222.
[133]Chen C H, Chen Z X. Isolation and charact erization of two pathogen and Salicylic acid induced genes encoding WRKY DNA binding proteins from tobacco. Plant Molecular Biology,2000,42:387-396
[134]Chen W Q, Provart N J, Glazebrook J, et al. Expression profilemat rix of Arabidopsist ranscription factor genes suggests theirputative functions in response to environmental stresses. Plant Cell,2002,14:559-574
[135]Chen X N, Fan J F, Yue X, et al. Radical scavenging activity and phenolic compounds in persimmon(Diospyros kaki L. cv. Mopan). Food Sci,2008,73:24-28
[136]Choi Y A, Tao R, Yonemori K, et al. Genomic distribution of three repetitiveDNAs in cultivated hexaploid Diospyros spp.(D. kaki and D. virginiana) and theirwild relatives. Genes Genet Syst,2003a,78:301-308
[137]Choi Y A, Tao R, Yonemori K, et al. Genomic in situ hybridization between persimmon (Diospyros kaki) and several wild species of Diospyros. Japan Soc Hort Sci,2003b,72: 385-388
[138]Choi Y A, Tao R, Yonemori K, Sugiura A. Physical mapping of 45S rDNA by fluorescent in situ hybridization in persimmon(Diospyros kaki) and its wild relatives. Hort Sci Biotech,2003c,78:265-271
[139]Choi Y A, Tao R, Yonemori K, Sugiura A. Simultaneous visualization of SS and 45S rDNAs in persimmon (Diospyros kaki) and several wild relatives (Diospyros spp.) by fluorescent in situ hybridization (FISH) and Multicolor FISH (MCFISH). Amer Soc Hort Sci,2003d,128:736-740
[140]Collard B C Y and Mackill D J. Start codon targeted (SCoT) polymorphism:a simple, novel DNA marker technique for generating gene-targeted markers in plants. Plant MolecularMolecular Biology Reporter,2009,27:86-93
[141]David H Byrne. Inheritance of five isozymes ioci in apricot. Horiscience,1989,24: 1015-1016
[142]Del Rio L A., Pastori G M., Palma J M., et al. The activated oxygen role of peroxisomes in senescence, Plant Physiol.,1998,116:1195-1200
[143]Dellagi A, Heilbronn J, Avrova A O, et al. A potato gene encoding a WRKY-like transcription factor is induced in interactions with Erwini a carotovora subsp atroseptica and Phytophthorainfestans and is coregulated with class1 endochitinase expression. Molecular Plant-Microbe Interaction s,2000,13:1092-1101
[144]Deslandes L, Olivier J, Theulieres F, et al. Resistance to Ralstonia solanacearum in Arabidopsis thaliana is conferred by the reces sive RRS12R gene, a member of a novel family of resist ancegenes. Proceedings of National Academy of Sciences of the United Stat es of America,2002,99:2404-2409
[145]Desprez T, Juraniec M, Crowell E F. Organization of cellulose synthease complexes involved in primary cell wall synthesis in Arabidopsis thaliana. PNAS,2007,104(39): 15572-15577
[146]Diatchenko L, Lau Y, C am pbellA, et al. Suppress ion subtractive hybr idiza tion:a m ethod for generating differentially regulated or tissue specific cDNA probes and libraries.Proc Natl Acad USA,1996,93:6025-6030.
[147]Du X Y, Zhang Q L. Luo Z R. Comparison of four molecular markers for genetic analysis in Diospyros L. (Ebenaceae). Plant Syst Evol,2009,281:171-181
[148]Du L Q, Chen Z X. Identifi cat ion of genes encoding receptor like protein kinases as possible targets of pathogen and salicylic acid induced WRKY DNA binding proteins in Arabidopsis. Plant Journal,2000,24:837-847
[149]Durrant W E, Rowl O and Piedras P, et al. cDNA-AFLP reveals a striking overlap in race-specific resistance and wound response gene profiles. The Plant Cell,2000,12(6): 936-977
[150]Fukui, H, Kano T, Takeuchi S, et al. In vitro growth of Japanese persimmon(Diospyros kaki Thunb.)seedling plants. Res Bul Fac Agr Gifu Univ,1987, (52):25-30
[151]Gus Mayer S, Naton B, H ahlbr ock K, et al. Local mechanical stimulat ion induces components of the pathogen defense response in parsley. Proceedings of Nat ional Academy of Sciences of the United St ates of America,1998,95:8398-8403
[152]Gutterige J M C, Rowley D A, Halliwell B. Superoxide-dependent formation of hydroxyl radicals and lipid peroxidation in the presence of iron salts. The Biochemical Jouurnal,1982, (206):605-609
[153]Guo D L, Luo Z R. GeneticRelationships of some PCNA Persimmons (Diospyros kaki Thunb.) from China and Japan revealed by SRAP analysis. Genetic Resources and Crop Evolution,2006,53(8):1597-1603
[154]Guo D L, Zhang H Q, and Luo Z R. Genetic relationships of Diospyros kaki Thunb. and related species revealed by IRAP and REMAP analysis. Plant science,2006, 170(3):528-533
[155]Gupta A S, Heinen J L, Holaday A S, et al. Increased resistance to oxidative stress in transgenic plants that overexpress chloroplastic Cu/Zn superoxide dismutase. PNAS, 1993,90(4):1629-1633
[157]Haigler C H, Datcheva I, Hogan P S, et al. Carbon partitioning to cellulose synthesis. Plant Mol Biol,2001,47:29-51
[158]He Xinhua, Pan Hong, Deng Libao, et al. Genetic diversity of natural Myrica rubra Sieb.et Zucc populations in Guangxi revealed by ISSR markers. Agricultural Sciences in China,2010,9(5):626-632
[159]http://faostat.fao.org/site/339/default.aspx.2012
[160]Hu D C, Zhang Q L, Luo Z R. Phylogenetic analysis in some Diospyros spp. (Ebenaceae) and Japanese persimmon using chloroplast DNA PCR-RFLP markers. Scientia Horticulturae,2008, (117):32-38
[161]Hualing W, Zhong F N, Ying Y Y, et al.Cloning and expression profile of 15 genes encoding WRKY transcription factor in wheat(Triticum aestivemL). Progress in natural science,2008,18:697-705
[162]Huang T, Duman J G. Cloning and characterization of athermalhyst eresis (antifreeze) protein with DNA-bindin g activity from winter bittersweet nights hade, Solanumdul camara. Plant Molecul ar Biology,2002,48:339-350
[163]Huang T, Duman J G. Cloning and characterization of a thermal hysteresis (antifreeze) protein with DNA-binding activity from winter bittersweet night shade, Solanum dulcamara. Plant Molecular Biology,2002,48:339-350
[164]Ishiguro S, Nakamur a K. Charact erization of a cDNA encoding an ovel DNA binding protein, SPF1, that recognizes SP8 sequences in the upstream regions of genes coding for sporamin and B2amylase from sweet potato. Molecular General Genet ics,1994,244: 563-571
[165]Izaguirre M M, Scopel A L, Baldwin I T, et al. Convergent respon ses to st res s. solar ultraviolet Bradiation and Manduca sexta herbivory elicit overlapping transcriptional responses in field grown plants of Nicotiana longiflora. Plant Physiology,2003,132: 1755-1767
[166]Keizo Y, Chitose H, Akira K, et al Relationship of European persimmon(Diospyros kakiThunb.) cultivars to Asian cultivars, characterized using AFLPs. Genetic Resources and Crop Evolution,2008,55(1):81-89
[167]Keizo Yonemori, Chitose Honsho, Akira Kitajima, et al. Parfitt.Relationship of European persimmon(Diospyros kaki Thunb.) cultivars to Asian cultivars, characterized using AFLPs. Genetic Resources and Crop Evolution. Genetic Resources and Crop Evolution,2007,10,271-275
[168]Kim T C, Ko K C. Classification of persimmon cultivars on the base of horticultural traits.Acta Hort,1997,436:77-83
[169]Kim T C, Ko K C. Taxonomic studies of persimmon(Diospyros Kaki Thumb.) by multivariate and isozyme analysis. In;Subhadrabandhu G(ed) Proc. Lst.Int. Persimmon Sym,1997,436:85-92
[170]Kim C Y, Zhang S. Activation of a nitrogen activated protein kinase cascade induces WRKY family of transcription factors and defense genes in tobacco. Plant Journal,2004, 38:142-151
[171]Koes R E, France Q, Joseph N M. The flavonoid biosyntheic path way in plants: function and evolution.Bioessays,1994,16:123-132
[172]Koesy G, Von Ballmoos P, Suter M, et al. Inhibition of glutathione synthesis reduces chilling tolerance in maize. Planta,2000,211:528-536
[173]Liang P, Pardee A B. Differential display of eukaryotic m essenger RNA by means of the polymerase chainreaction. Science,1992,257(14):967-971
[174]Liu XQ, Bai XQ, Qian Q, et al. OsWRKY03, a rice transcriptional activator that funct-ions in defense signaling pathway upstream of OsNPR1. Cell Research,2005,15: 593-603
[175]Luo C, He X H, Chen H, et al.. Analysis of diversity and relationships among mango cultivars using start codontargeted (SCoT) markers.Biochemical Systematics and Ecology,2010,38(6):1176-1184.
[176]Luo Z R, Wang R Z. Persimmon in China:Domestication and traditional utilizations of genetic resources. Advances in Horticultural Science,2008,22(4):239-243
[177]Madoka Y, Mori H. Zcropetal disappearance of PSAD1 protein in pea axilary buds after the release of apical dominance. Plant Cell Physiol,2000,41(5):556-564
[178]Madoka Y, Mori H. Two novel transcripts expreessed in pea dormant axillary buds. Plant Cellphysiol,2000,41(3):274-281
[179]Maria Badenes, Ana Garces, Carlos Romero, et al. Genetic diversity of introduced and local Spanish persimmon cultivars revealed by RAPD markers. Genetic Resources and Crop Evolution,2003,50:579-585
[180]Martin G.B., Brommonschenkel S H., ChunWongse J, et al. Map ased cloning of a protein kinase gene conferring disease resistance in tomato. Science,1993,262(5138): 1432-436
[181]Martin C R. Structure, function, and regulation of the chalcone synthase. Internation review of cytology,1993,147:233-284
[182]Martinez Zamora M. G, Castagnaro A P, Daz J C. RicciIsolation and diversity analysis of resistance gene analogues (RGAs) from cultivated and wild strawberries. Mol Gen Genomics,2004,272:480-487
[183]Masumi Yamagishi, Shigehito Matsumoto, Akira Nakatsuka, et al. Identification of persimmon(Diospyros kaki) cultivars and phenetic relationships between Diospyros species by more effective RAPD analysis. Scientia Horticulturae,2005,105:283-290
[184]Maya L P, Cohen R, Oded Y, et al. Trifluralin herbicide-induced resistance of melon to fusarium wilt involves expression of stress-and defence-related genes. Molecular Plant Pathology,2007,8(1):9-22
[185]Mauro Herrera M, Meerow A W, Borrone J, et al. Ten informative markers developed from WRKY sequences in coconut (Cocosnuci fera). Molecular Ecology Notes,2006,6: 904-906
[186]Mittler R, Zilinskas B A. Regulation of pea cytosolic ascorbate peroxidase and other antioxidant enzymes during the progression of drought stress and following recovery from drought. The Plant Journal,1994,5(3):397-405
[187]Nakamura Y, Kobayashi S. DNA restriction fragment length variability in Diospyros kaki and related Dispecies. HortSci,1994,29:809-811
[188]Nakatsuka A, Iwami N, Matsumoto S, et al. Tyl-cop is group retrotransposons in persimmon(Diospyros kaki Thunb.). Genes Genet Syst,2002,77:131-136
[189]Nei M. Genetic distance between populations[J]. American Naturalist,1972,106: 283-292.
[190]Ng F S P. Diospyros roxburghii and the origin of Diospyros kaki. Malaysian Forester, 1978,41:43-50
[191]Pan Q, Wendel J, and Fluhr R. Divergent evolution of plant NBS-RR resistance gene homologues in dicot and creal genomes. Mol. Evol.,2000,50(3):203-213
[192]Parker J E, Coleman M J, Szabo V, et al. Downy mildew resistance gene RPPS shares similarity to the Toll and Interleukin-receptors With N and L6, Plant Cell,1997,9: 879-94
[193]Peneli L, H allak2Herr E, Rozenberg M, et al. Molecular and biochemical mechan isms associated with dormancy and drought tolerance in the desert legume Retama raetam. Plan t Journal,2002,31:319-330
[194]Pinhero R G, Rao M V, Paliyath G, et al. Changes in activities of antioxidant enzymes and their relationship to genetic and paclobutrazol-induced chilling tolerance of maize seedlings. Plant Physiology,1997,114(2):695-704
[195]Rafael P T, Estra G. The tomato Cu, Zn superoxide dismutase genes are developmentally regulated and respond to light and stress. Plant Molecular Biology, 1991,17(4):745-760
[196]Rizhsky L, Liang H J, and Mittler R. The combined effect of drought stress and heats hock on gene expression in tobacco. Plant Physiology,2002,130:1143-1151
[197]Rushton P J, Macdonald H, Huttly A K, et al. Members of a new family of DNA binding proteins bind to a conserved cis element in the promoters of a-Amy genes. PI ant Molecular Biology,1995,29:691-702
[198]Rushton P J, Torres J T, Parnis ke M, et al. Interaction of elicitor induced DNA binding proteins with elicitor res ponse elements in the promoters of parsl ey PR1 genes. EMBO Journal,1996,15:5690-5700
[199]Saxena IM, Brown R M Jr. Cellulose synthase and related enzymes. Current Opinion in Plant Biology,2000,3(6):523-531.
[200]Seki M, Narusaka M, Ishida J, et al. Monitoring the expression profiles of 7000 Arabidopsis genes under drought, cold and high salinity stresses using a full length cDNA microarray. PI ant Journal,2002,31:279-292
[201]Shinya Maki, Keiji Oyama, Takao Kurahashi, et al. RFLP analysis for cultivar identification of persimmons. Scientia Horticulrae,2001,91:407-412
[202]Song W Y, Wang G L, Chen L L, et al. A receptor kinase-like protein encoded by the rice disease resistancegene, Xa21, Science,1995,270 (5243):1804-1806
[203]Sugiura A, Yonemori K, Tetsumura T, et al. Identification of pollination-constant and non-astringent type cultivars of Japanese persimmon by leaf isozyme analysis. Japan Soc Hort Sci,1990,59(Supply):44-45
[204]Sun CX, Palmqvist S, Ols son H, et al. A Novel WRKY transcription factor, SUSIBA2, participates in sugar signaling in barley by binding to the sugar responsive elements of the isol promoter. Plant Cell,2003,15:2076-2092
[205]Tanaka Y, Hibino T, Hayashi Y, et al. Salt tolerance of transgenic rice overexpressing yeast mitochondrial Mn-SOD in chloroplasts. Plant Science,1999,148(2):131-138
[206]Tao R and A Sugiura. Cultivar identification of Japanese persimmon by leaf isozymes, Hort. Scence,1987,22:932-935
[207]Tao R, A Tetsumira and A Sigiura.Use of leaf isozymes to discriminate among Japanese persimmon(Diospyres kaki L.)cultivars.Memoirs College Agr. Kyoto univ.,1989, 135:31-42
[208]Tsang E W T, Bowler C, Herouart D, et al. Differential regulation of superoxide dismutases in plants exposed to environmental stress. Plant Cell,1991,3(8):783-792
[209]Veberic R, Jurhar J, Mikulic-Petkovsek M, et al. Comparative study of primary and secondary metabolites in 11 cultivars of persimmon fruit (Diospyros kaki L.). Food Chem,2010,119:477-483
[210]Wang Renzi, Yang Yong, Li Gaocao.1997. Chinese persimmon germplasmresources[J]. Acta Hortic 436:43-50
[211]Wang Z P, Yang P Z, Fan B F, et al. An oligo select ion procedure for identification of sequence specific DNA binding activities associated with the plant defence response. Plant Journal,1998,16:515-522
[213]Wildi B, Lutz C. Antioxidant composition of seleeted high alpine plant speeies from different altitudes. Plant Cell Environ,1996,19:138-146
[214]Won D S, Yeun D Ch, Tae C K, et al. Science and Industry of persimmon in the Republic of Korea. The fifth internation symposium on persimmon,2012
[215]Wu G, Wilen R W, Robertson A J, et al. Isolation, chromosomal localization, and differential expression of mitochondrial manganese superoxide dismutase and chloroplastic copper/zinc superoxide dismutase genes in wheat. Plant Physiology,1999, 120(2):513-520
[216]Wu H L, Ni Z L,Yao Y Y,et al. Cloning and expression profiles of 15 genes encoding WRKY transcription factor in wheat (Triticum aestivem L.). Progress in Natural Science,2008,18:697-705
[217]Wu L G, Joshi C P, Chiang V L. A xylem specific cellulose synthase gene from aspen (Populus tremuloides) is responsive to mechanical stress. Plant Journal,2000,22(6): 495-502
[218]Xiong F Q, Zhong R C, Han Z Q.2011.Start codon targeted polymorphism for evaluation of functional genetic variation andrelationships in cultivated peanut (Arachis hypogaea L.) genotypes.Mol Biol Rep,38:3487-3494.
[219]Xu Y H, Wang J W, et al. Characterizat ion of GaWRKYl, a cotton transcription factor that regulates the sesquiterpene synthase gene (+)-D-cadinene synthase-A. Plant Physiology,2004,135:507-515
[220]Yamane H, Yamada M, Kurihara A, et al. Tanrei and Kinshuu, new Japanese persimmon cultivars.Bul Fruit Free Res Sta,1998b,30(31):15-24
[221]Yamane H, Kurihara A, Yamada M, et al.Yubeni.a new cultivar of Japanese persimmon. Japan Soc Hort Sci,1999,67(Suppl.1):51
[222]Yang Y, Ruan X F, Wang R Z, et al. A dvances in Research of Germplasm Resources and Breeding of Dispyros kaki L. Journal of Northwest Forestry University,2005,20(2): 133-137
[223]Yang P Z, Chen C H, Wang Z P, et al. A pathogen and salicylic acid induced WRKY DNA binding activity recognizes the elicitor response element of the tobacco class Ⅰ chitinase gene promoter. Plant Journal,1999,18:141-149
[224]Yonemori K. Persimmon industry and research activities in Japan Acta Hortic,1997, 436:21-32
[225]Yonemori K, Honsho C, Kitajima A, et al. Relationship of European persimmon (Diospyros kaki Thunb.) cultivars to Asian cultivars, characterized using AFLPs. Genet Res Crop Evol,2008,55:81-89
[226]Zhou B, Peng K, Chu Z, et al. The defense-responsive genes showing enhanced and repressed expression after pathogen infection in rice(Oryza sativa LI). Science in China (Series C),2002,45:450-467
[227]Soriano J. M., Pecchioli S, Romero C, et al. Development of microsatellite markers in polyploid persimmon(Diospyros kaki Lf) from an enriched genomic library. Molecular Ecology Notes,2006,6:368-370
[228]Zhang Y F, Zhang Q L, Yang Y, et al. Deleopment of Japanese persimmon core collection by genetic distance sampling based on SSR markers. Biotechnol. & Biotechnol. Eq.2009,23(4),1474-1478
[2]陈虎.龙眼种质资源遗传多样性分析及低温对石硖龙眼影响研究.广西大学博士论文,2012
[3]陈惠明,刘敬业,冉邦定,等.烤烟感染赤星病后4种酶动态的研究.云南农业大学学报,1995,10(1):1-6
[4]陈建业.柿品种鉴定及分类研究进展.山东林业科技,2007,(4):60-64
[5]陈杰忠.果树栽培学各论.北京:中国农业出版社,2003:280-285
[6]陈少裕.膜脂过氧化对植物细胞的伤害.植物生理学通讯,1991,27(2):84-90
[7]陈香玲,李杨瑞,杨丽涛,等.低温胁迫下甘蔗抗寒相关基因的cDNA-SCOT差异显示.生物技术通报.2010a,8:120-124
[8]陈香玲,李杨瑞,杨丽涛,等.cDNA-SCOT基因差异表达两种电泳方法的比较研究.生物技术通报,2010b,10:93-95
[9]邓立宝,何新华,张允伟,等.广西桂林市柿子种质资源初步调查与丌发利用现状.安徽农业科学,2010,38(16):8372-8373
[10]邓立宝,何新华,李天文,胡颖.广西西北部高原地区柿种质资源调查及遗传多样性分析.园艺学报,2012,39(2):215-224
[11]董继新,董海涛,何祖华等.一个水稻与稻瘟病菌(Magna Porthegrisea)互作相关新基因的克隆.农业生物技术学报,2001,9(1):41-44
[12]杜晓云,罗正荣.部分柿属植物IRAP反应体系的建立和指纹图谱构建.农业生物技术学报,2006,14(6):931-936
[13]杜晓云,张梦思,罗正荣,张青林.ISTR在部分柿属植物种质鉴定和亲缘关系分析中的应用.园艺学报,2009,36(4):481-486
[14]杜晓云,张青林,黄建民,罗正荣.SSAP逆转座子分子标记在柿属植物遗传分析中的应用.农业生物技术学报,2010,18(4):682-688
[15]杜晓云.系列逆转座子分子标记的建立及其在柿属植物中的应用研究.华中农业大学博士论文,2008
[16]范海延,陈捷,邵美妮等.白粉病菌胁迫下黄瓜R17抗病品系叶片蛋白质组分析.园艺学报,2009,36(6):829-834
[17]范尉尉,马春红,董文琦,等.棉花根部损伤程度对感染黄萎病菌后体内抗性酶的影响.中国农业科学,2006,39(12):2483-2490
[18]冯涛.新疆野苹果(Malus sieversii (Ledeb.) Roem.)部分表型遗传多样性研究.山东农业大学博士论文,2007
[19]高静.疏棉状嗜热丝孢菌Thermomyces lanuginosus超氧化物歧化酶的分离纯化及性质研究.山东农业大学硕士论文,2003
[20]郭大龙.几种分子标记技术的建立及其在部分柿属植物亲缘关系研究中的应用.华中农业大学博士论文,2006
[21]郭大龙,罗正荣.柿和君迁子SSR分析技术的建立.农业生物技术学报,2004,12(4):386-389
[22]郭大龙,罗正荣.一种利用ISSR开发SSR引物的方法.植物生理学通讯,2006,42(2):268-270
[23]郭大龙,罗正荣.部分柿属植物SRAP-PCR反应体系的优化.果树学报,2006,23(1):138-141
[24]郭红莲,程根武,陈捷,等.玉米灰斑病抗性反应中酚类物质代谢作用的研究.植物病理学报,2003,33(4):343-346
[25]韩凤鸣.百合营养系变异体的鉴定.西北农林科技大学硕士论文,2006
[26]贺贤臣.SDR蛋白家族结构和底物特异性研究及应用.北京大学硕士论文,2008
[27]侯沛,张显.11个小果型西瓜材料模糊综合评判.中国蔬菜,2009,1(12):53-58
[28]胡德昌.柿及其部分近缘种mtDNA和cpDNA多态性分析.华中农业大学博士论文,2007
[29]黄飞,宋瑞芳,丁永乐.烟草苗期抗CMV生理生化研究.江西农业大学学报,2010,32(2):276-282
[30]黄良飞,刘助生.恭城月柿产业化现状调查与发展对策.中国果树,2007,(4):56-60
[31]贾东升.小麦抗旱相关转录因子基因TaMyb2s的克隆及功能验证.西北农林科技大学硕士论文,2008
[32]廖靖军,安成才,吴思,陈章良.查尔酮合酶基因在植物防御反应中的调控作用.北京大学学报(自然科学版),2000,36(4):566-575
[33]罗聪.芒果SCoT分子标记与逆境和重要开花时间相关基因研究.广西大学博士论文,2012
[34]罗聪,蒋雅琴,高美萍等.杧果叶绿素a/b结合蛋白基因cDNA全长克隆及其序列分析.果树学报2010,27(3):441-444
[35]罗正荣,米森敬三,杉浦明.应用RAPD技术研究柿品种间的亲缘关系.果树科学,1998,15(4):311-316
[36]罗正荣,张青林.第三届国际柿学术研讨会.2005
[37]罗正荣,张青林.第五届国际柿学术研讨会.2012
[38]罗正荣.中国甜柿的特点及其在世界甜柿基因库中的地位.第五届全国柿生产和科研进展研讨会,2011
[39]罗正荣.柿的特点及其研究课题.首届全国柿生产和科研进展研讨会,2011
[40]罗正荣,蔡礼鸿,胡春根.柿属植物种质资源及其利用研究现状.华中农业大学学报,1996,(19):381-388
[41]李淼,檀根甲,承河元等.植物抗病性研究现状与前景展望.江西农业大学学报(自然科学版),2002,24(5):731-736
[42]李少旋,高东升,李玲,等.不同粗皮病诱因对苹果叶片相关保护酶的影响.中国农学通报,2011,27(6):166-170
[43]李树钢.中国植物志.北京:科学出版社,1987
[44]李艳萍.水稻抗瘟基因部分序列的克隆及同源性分析.华南热带农业大学硕士论文,2003
[45]林贻卿.不同时期刈割对互花米草根系生理影响的研究.福建师范大学硕士论文,2008
[46]李文谦.盾叶薯蓣细胞及内生真菌共培养机制研究.南京工业大学硕士论文,2004
[47]刘太国,李永镐,陈万权.水杨酸对感染TMV烟草叶片PAL活性的影响.西北农林科技大学学报,2005,33:111-114
[48]刘月梅,自卫东,鲁周民,等.我国柿子加工研究进展.西北林学院学报,2007,22(2):152-155
[49]刘磊.TMV侵染烟草基因差异表达的DNA-AFLP分析.黑龙江八一农垦大学硕士论文,2010
[50]马淑娟.棉花叶绿体Cu/Zn-SOD基因植物表达载体的构建及转化.华中农业大学 硕士论文,2007
[51]马彦.柿叶的化学成分研究进展.中山大学研究生学刊(自然科学版),2004,25(1):10-16
[52]麦维军,王颖,梁承邺,张明永.谷肤甘肤在植物抗逆中的作用.广西植物,2005,25(6):570-575
[53]茆振川,谢丙炎,杨宇红等.辣椒N基因介导抗根结线虫作用早期表达基因的抑制性消减杂交SSH分析.园艺学报,2007,34(3):629-636
[54]明军,张启翔,张义等.园林及园艺植物品种鉴定常规技术研究进展.世界林业研究,2002,15(6):14-19
[55]潘德森,欧阳绍湘,王希群,等.关于将“罗田甜柿”更名为“中国甜柿”的建议.湖北林业科技,2002,(2):27-28
[56]彷岛善次.柿和人生.东京:明玄书房,1980,1445
[57]阙友雄,许莉萍,陈如凯.对甘蔗受黑穗病菌侵染后差异表达基因的分离与鉴定.作物学报,2009,35(3):452-458
[58]任爱霞,胡家恕,祝水金.棉花黄萎病抗性与过氧化物酶同工酶分析.棉花学报,2002,14:273-276
[59]任志莹;杨立国;肖军等.植物基因分离的抑制消减杂交PCR.辽宁农业科学,2008(1):41-43
[60]阮妙鸿,王伟,邱永祥,等.甘薯抗薯瘟病的水杨酸与活性氧的代谢变化.热带作物学报,2008,29(1):15-17
[61]商闯,马春红,翟彩霞,等.丙二醛(MDA)含量在玉米诱导抗病过程中的变化.华北农学报,2007,22:29-32
[62]沈红霞,占卫国,占燕.柿资源的研究现状.安徽农业科学,2009,37(23):10967-1096
[63]沈永宝,施季森.植物种或品种鉴定的展望.江苏林业科技,2004,31(5):41-45
[64]沈庆庆.桂西南早熟荔枝实生资源调查及遗传多样性研究.广西大学硕士论文,2011
[65]盛敬伟,徐萍,李学林.柿叶的药用.河南中医药学刊,1995,10(6):24-33
[66]石瑞婷,王文江,刘永居.国内外柿品种选育研究进展.第四届全国干果生产、科研进展研讨会论文集,2005
[67]孙厚俊,刘美艳,宗玮玮,赵永强,陈晓宇,谢逸萍.黑斑病对甘薯体内几种保护酶活性的影响.广西农学报,2011,26(3):14-19
[68]孙小霞,王海斌,何海斌,等.田间旱育条件下不同化感潜力水稻的生理特性分析.中国生态农业学报,2011,19(3):650-654
[69]宋蓓.枣DNA-AFLP技术体系优化及其在抗枣疯病相关基因片段筛选中的应用.河北农业大学硕士论文,2007
[70]汤华,帅爱华,向福英.植物基因差异表达的研究方法及进展.海南大学学报(自然科学版),2006,24(3):309-316
[71]陶金华,刘岱,陈发河.炭疽病菌侵染对枇杷果实病程相关酶.天津农业科学,2011,17(5):1-4
[72]田昕.不同枣树品种果实结构和酶活性与缩果病抗性关系分析.北京林业大学硕士论文,2012
[73]童敏.浙江省柿树遗传多样性与种质鉴定研究.浙江林学院硕士论文,2007
[74]欧阳光察,薛应龙.植物苯丙烷类代谢的生理意义及调控.植物生理学通讯,1988,(3):9-16
[75]王万双,罗正荣,蔡礼鸿.柿品种鉴定及分类研究进展.园艺学报,1998,25:44-50
[76]王华瑞.柿子长期保鲜技术研究.中国农业大学硕士论文,2003
[77]王金胜,郭春绒,张映.农业生物化学技术.太原:山西科学技术出版社,1997
[78]王立新,苏青.过氧化物酶同工酶电泳技术在冬小麦抗白粉病鉴定中的应用.华北农学报,1996,11(1):30-35
[79]王仁梓.甜柿生产中的问题与对策.第五届全国柿生产和科研进展研讨会,2011
[80]王仁梓.柿种质资源研究.陕西果树所建所三十年和陕西果品研究中心成立科学研究论文集,1989:25-27
[81]王仁梓.柿.北京:农业出版社,1987
[82]王倩.中国野生毛葡萄抗黑痘病抑制消减杂交文库构建及表达序列标签(ESTs)分析.西北农林科技大学硕士论文,2011
[83]王永成,巩振辉,李大伟.S王永成.利用mRNA差异显示技术克隆辣椒抗疫病相关基因片段.北方园艺,2008,(12):149-152
[84]王伟,张军科,王跃进,等.白粉菌对葡萄叶片生理特性的影响.北方园艺,2010,9:14-17
[85]吴耕民.中国温带果树分类学.北京:中国农业出版社,1984:56-60
[86]吴金华,胡银岗,张宏,等.小麦种质N9436抗白粉病的特异基因表达谱分析.作 物学报,2008,34(7):1143-1152
[87]巫燕.广西平乐恭城柿子产业发展现状与对策[J].广西热带农业,2007(1):15
[88]徐莉清.部分中国原产柿属雄性种质的生物学特性及其新种质创制的研究.华中农业大学博士论文,2008
[89]徐明庆.人工云杉幼林落针病几种重要生理生化指标变化的研究.四川农业大学硕士论文,2009
[90]许丽萍,陈如凯.甘蔗黑穗病及其抗病育种的现状与展望.福建农业大学学报,2000,15(2):26-31
[91]许健康,汪树人,罗靓亮,等.徽州鸡公尖灯笼柿及栽培技术.中国林副特产,2012,3(118): 40-42
[92]许勇,王永健,葛秀春,等.枯萎病菌诱导的结构抗性和相关酶活性变化与西瓜枯萎病抗性的关系.果树科学,2000,17(2):123-127
[93]杨勇,阮小凤,王仁梓,李高潮.单宁细胞形态与部分柿属种及品种相关性研究.西北植物学报,2007,27(8):1524-1530
[94]杨勇,阮小凤,王仁梓,李高潮.柿种质资源及育种研究进展.西北林学院学报,2005,20:133-137
[95]杨勇,王仁梓,李高潮.柿种质资源描述规范和数据标准.中国农业出版社,2006
[96]杨勇,王仁梓,李高潮,等.柿属植物及柿品种染色体数目研究.西北农业学,1999,8(3):64-67
[97]杨小丽,马俊义,胡白石,陈涛,李晓霞.不同哈密瓜品种苗期对细菌性果斑病的抗病性鉴定.新疆农业科学,2008,45(3):452-455
[98]叶央芳,闵航,吕镇梅.除草剂苯噻草胺污染对多食鞘氨醇杆菌(Sphingobac terium multivolum)抗氧化酶和ATP酶的影响.环境科学学报,2006,26(1):151-156
[99]远藤融郎.柿品种与栽培.东京:农山渔村文化协会,1982
[100]詹少华,林毅,吕凯.天然彩色棉过氧化物酶、丙二醛及硝酸还原酶的测定.安徽农业科学,2005,33(1):17-18
[101]张春生.燕麦光周期不敏感基因克隆与分析.吉林大学博士论文,2012
[102]张岗,董艳玲,夏宁,张毅等.利用cDNA-AFLP技术分析小麦成株抗条锈性差异基因表达特征.作物学报,2010,36(3):401-409
[103]张桂霞.柿(Diospyros kaki L)AFLP体系的建立及其优良品种指纹.河北农业大学 硕士论文,2003
[104]张建国.果树的抗病性研究进展.经济林研究,2003,21(1):67-70
[105]张静妮.不同秋眠等级苜蓿匍柄霉叶斑病抗性评价及抗病机理研究.北京林业大学博士论文,2008
[106]张君诚,官德义.mRNA差异显示技术在植物抗逆抗病机理研究中的应用.生物学报,2003,22(4):364-367
[107]张丽丽,师校欣,杜国强,王惠英.植物抗病机制及果树抗病育种研究进展.华北农学报,2006,21(增刊):175-179
[108]张淑珍,徐鹏飞,吴俊江,等.大豆疫霉根腐病菌诱导下SSH文库构建及初步分析.大豆科学,2008,27(3):543-545
[109]张青林,罗正荣.柿属植物ISSR分析技术的建立.农业生物技术学报,2004,12(5):521-525
[110]张青林.完全甜柿及部分雄性种质的亲缘关系研究.华中农业大学博士论文,2006
[111]张玉经,王昆,王忆,等.苹果种质资源果实轮纹病抗性的评价.园艺学报,2010,37(4):530-546
[112]张云.N-酰基乙醇胺延缓香石竹切花(Dianthus caryophyllus L.)衰老机理的研究.南京农业大学博士论文,2006
[113]赵献民,龚榜初,吴开云,熊春艳,胡青素.柿育种研究的现状与进展.湖南农业科学,2011,21(4):21-24
[114]郑炳松.现代植物生理生化研究技术.北京:气象出版社,2006
[115]曾永三,王振中.苯丙氨酸解氡酶在植物抗病反应中的作用.仲恺农业技术学院学报,1999,12(3):56-65
[116]庄东红,石田雅士.柿.汕头大学学报,1995,10(1):42-47
[117]周变华,王宏伟,杨自军,等.抑制性消减杂交技术及其应用研究进展.河南农业科学,2011,40(12):410-42
[118]周祖富,黎兆安.植物生理学实验指导.北京:高等教育出版社,2005
[119]朱龙付.棉花遗传多样性研究及抗黄萎病相关基因的克隆与分析.武汉:华中农业大,2004
[120]朱元娣,孙凌霞,李春雨,等.利用c DNA-AFLP技术研究苹果柱型与非柱型cDNA的差异表达.园艺学报2007,34(2):283-288
[121]左大勋,柳鎏,王希蕖.我国柿属植物资源的地理分布及利用.中国果树,1984,(3):27-34
[122]Akter M S, Eun J B. Characterization of insoluble fibers prepared from the peel of ripe soft persimmon(Diospyros kaki L. cv.Daebong). Food Sci. Biotechnol,2009, 18:1545-1547
[123]Alexandrova K S, Conger B V. Isolat ion of two somat ic embryogenes is related genes from orchardgrass (Dactylis glomerata).Plant Science,2002,162:301-307
[124]Asthir B, Koudsl L A, Baind N S, et al. Stimulation of antioxidative enzymes and polyamines during stripe rust disease of wheat. Bioloia plantarum,2010,54 (2):329-333
[125]Atanassov H, Pittman J K, Turner S R. Elucidating the mechanisms of assembly and subunit interaction of the cellulose synthase complex of Arabidopsis secondary cell walls. Journal of Biological Chemistry,2009,284(6):3833-3841
[126]Caffarri S, Croce R, Catt i velli L, e t al. A look within LHC Ⅱ: different ial analysis of the Lhcb1-3 complexes building the major trimericantenna complex of higher -plant photosynthesis. Biochemi try,2004,43:9467-94761
[127]Bachem CW B, H oevan R S, B ru i jn ZM, V reugdenh ilD, ZabeauM, V isser R G F, De Bruijn SM.1996. V isualization of differential gene expression using a novel method of RNA fingerprin ting based on AFLP:analysis of gene expression during potato tuber development. Plant Journa,19:745-753.
[128]Beardmore J. Cell wall hydroxyproline enhancement and lignin depositionas as an early event in the resistance of cucumber to Caldosporium cucumberinum. Physiological Plant Pathology,1984, (24):43-47.
[129]Bellini E, Giannelli G, Villa S. Oriental persimmon for the obtaining of new PCNA cultivars. Abstr 23th lnt Hort Congr,1990, (2):30-49
[130]Bellini E, Giordani E. Germplasm conservation of persimmon in europe. Acta Horticulturae,2003,601:37-46
[131]Beyer K, Binder A, Boller T, et al. Ident ificat ion of potatogenes induced during colonizat ion by P hytoph thora inf estans.Molecular Plant Pathology,2001,2:125-134
[132]Brugm an s B, Fernandez del Carm en A, Bachem CW B, van OsH, V isser R G F. 2002. A novel method for th e construct ion of genome wide transcriptome maps. Plan t Journa,131:211-222.
[133]Chen C H, Chen Z X. Isolation and charact erization of two pathogen and Salicylic acid induced genes encoding WRKY DNA binding proteins from tobacco. Plant Molecular Biology,2000,42:387-396
[134]Chen W Q, Provart N J, Glazebrook J, et al. Expression profilemat rix of Arabidopsist ranscription factor genes suggests theirputative functions in response to environmental stresses. Plant Cell,2002,14:559-574
[135]Chen X N, Fan J F, Yue X, et al. Radical scavenging activity and phenolic compounds in persimmon(Diospyros kaki L. cv. Mopan). Food Sci,2008,73:24-28
[136]Choi Y A, Tao R, Yonemori K, et al. Genomic distribution of three repetitiveDNAs in cultivated hexaploid Diospyros spp.(D. kaki and D. virginiana) and theirwild relatives. Genes Genet Syst,2003a,78:301-308
[137]Choi Y A, Tao R, Yonemori K, et al. Genomic in situ hybridization between persimmon (Diospyros kaki) and several wild species of Diospyros. Japan Soc Hort Sci,2003b,72: 385-388
[138]Choi Y A, Tao R, Yonemori K, Sugiura A. Physical mapping of 45S rDNA by fluorescent in situ hybridization in persimmon(Diospyros kaki) and its wild relatives. Hort Sci Biotech,2003c,78:265-271
[139]Choi Y A, Tao R, Yonemori K, Sugiura A. Simultaneous visualization of SS and 45S rDNAs in persimmon (Diospyros kaki) and several wild relatives (Diospyros spp.) by fluorescent in situ hybridization (FISH) and Multicolor FISH (MCFISH). Amer Soc Hort Sci,2003d,128:736-740
[140]Collard B C Y and Mackill D J. Start codon targeted (SCoT) polymorphism:a simple, novel DNA marker technique for generating gene-targeted markers in plants. Plant MolecularMolecular Biology Reporter,2009,27:86-93
[141]David H Byrne. Inheritance of five isozymes ioci in apricot. Horiscience,1989,24: 1015-1016
[142]Del Rio L A., Pastori G M., Palma J M., et al. The activated oxygen role of peroxisomes in senescence, Plant Physiol.,1998,116:1195-1200
[143]Dellagi A, Heilbronn J, Avrova A O, et al. A potato gene encoding a WRKY-like transcription factor is induced in interactions with Erwini a carotovora subsp atroseptica and Phytophthorainfestans and is coregulated with class1 endochitinase expression. Molecular Plant-Microbe Interaction s,2000,13:1092-1101
[144]Deslandes L, Olivier J, Theulieres F, et al. Resistance to Ralstonia solanacearum in Arabidopsis thaliana is conferred by the reces sive RRS12R gene, a member of a novel family of resist ancegenes. Proceedings of National Academy of Sciences of the United Stat es of America,2002,99:2404-2409
[145]Desprez T, Juraniec M, Crowell E F. Organization of cellulose synthease complexes involved in primary cell wall synthesis in Arabidopsis thaliana. PNAS,2007,104(39): 15572-15577
[146]Diatchenko L, Lau Y, C am pbellA, et al. Suppress ion subtractive hybr idiza tion:a m ethod for generating differentially regulated or tissue specific cDNA probes and libraries.Proc Natl Acad USA,1996,93:6025-6030.
[147]Du X Y, Zhang Q L. Luo Z R. Comparison of four molecular markers for genetic analysis in Diospyros L. (Ebenaceae). Plant Syst Evol,2009,281:171-181
[148]Du L Q, Chen Z X. Identifi cat ion of genes encoding receptor like protein kinases as possible targets of pathogen and salicylic acid induced WRKY DNA binding proteins in Arabidopsis. Plant Journal,2000,24:837-847
[149]Durrant W E, Rowl O and Piedras P, et al. cDNA-AFLP reveals a striking overlap in race-specific resistance and wound response gene profiles. The Plant Cell,2000,12(6): 936-977
[150]Fukui, H, Kano T, Takeuchi S, et al. In vitro growth of Japanese persimmon(Diospyros kaki Thunb.)seedling plants. Res Bul Fac Agr Gifu Univ,1987, (52):25-30
[151]Gus Mayer S, Naton B, H ahlbr ock K, et al. Local mechanical stimulat ion induces components of the pathogen defense response in parsley. Proceedings of Nat ional Academy of Sciences of the United St ates of America,1998,95:8398-8403
[152]Gutterige J M C, Rowley D A, Halliwell B. Superoxide-dependent formation of hydroxyl radicals and lipid peroxidation in the presence of iron salts. The Biochemical Jouurnal,1982, (206):605-609
[153]Guo D L, Luo Z R. GeneticRelationships of some PCNA Persimmons (Diospyros kaki Thunb.) from China and Japan revealed by SRAP analysis. Genetic Resources and Crop Evolution,2006,53(8):1597-1603
[154]Guo D L, Zhang H Q, and Luo Z R. Genetic relationships of Diospyros kaki Thunb. and related species revealed by IRAP and REMAP analysis. Plant science,2006, 170(3):528-533
[155]Gupta A S, Heinen J L, Holaday A S, et al. Increased resistance to oxidative stress in transgenic plants that overexpress chloroplastic Cu/Zn superoxide dismutase. PNAS, 1993,90(4):1629-1633
[157]Haigler C H, Datcheva I, Hogan P S, et al. Carbon partitioning to cellulose synthesis. Plant Mol Biol,2001,47:29-51
[158]He Xinhua, Pan Hong, Deng Libao, et al. Genetic diversity of natural Myrica rubra Sieb.et Zucc populations in Guangxi revealed by ISSR markers. Agricultural Sciences in China,2010,9(5):626-632
[159]http://faostat.fao.org/site/339/default.aspx.2012
[160]Hu D C, Zhang Q L, Luo Z R. Phylogenetic analysis in some Diospyros spp. (Ebenaceae) and Japanese persimmon using chloroplast DNA PCR-RFLP markers. Scientia Horticulturae,2008, (117):32-38
[161]Hualing W, Zhong F N, Ying Y Y, et al.Cloning and expression profile of 15 genes encoding WRKY transcription factor in wheat(Triticum aestivemL). Progress in natural science,2008,18:697-705
[162]Huang T, Duman J G. Cloning and characterization of athermalhyst eresis (antifreeze) protein with DNA-bindin g activity from winter bittersweet nights hade, Solanumdul camara. Plant Molecul ar Biology,2002,48:339-350
[163]Huang T, Duman J G. Cloning and characterization of a thermal hysteresis (antifreeze) protein with DNA-binding activity from winter bittersweet night shade, Solanum dulcamara. Plant Molecular Biology,2002,48:339-350
[164]Ishiguro S, Nakamur a K. Charact erization of a cDNA encoding an ovel DNA binding protein, SPF1, that recognizes SP8 sequences in the upstream regions of genes coding for sporamin and B2amylase from sweet potato. Molecular General Genet ics,1994,244: 563-571
[165]Izaguirre M M, Scopel A L, Baldwin I T, et al. Convergent respon ses to st res s. solar ultraviolet Bradiation and Manduca sexta herbivory elicit overlapping transcriptional responses in field grown plants of Nicotiana longiflora. Plant Physiology,2003,132: 1755-1767
[166]Keizo Y, Chitose H, Akira K, et al Relationship of European persimmon(Diospyros kakiThunb.) cultivars to Asian cultivars, characterized using AFLPs. Genetic Resources and Crop Evolution,2008,55(1):81-89
[167]Keizo Yonemori, Chitose Honsho, Akira Kitajima, et al. Parfitt.Relationship of European persimmon(Diospyros kaki Thunb.) cultivars to Asian cultivars, characterized using AFLPs. Genetic Resources and Crop Evolution. Genetic Resources and Crop Evolution,2007,10,271-275
[168]Kim T C, Ko K C. Classification of persimmon cultivars on the base of horticultural traits.Acta Hort,1997,436:77-83
[169]Kim T C, Ko K C. Taxonomic studies of persimmon(Diospyros Kaki Thumb.) by multivariate and isozyme analysis. In;Subhadrabandhu G(ed) Proc. Lst.Int. Persimmon Sym,1997,436:85-92
[170]Kim C Y, Zhang S. Activation of a nitrogen activated protein kinase cascade induces WRKY family of transcription factors and defense genes in tobacco. Plant Journal,2004, 38:142-151
[171]Koes R E, France Q, Joseph N M. The flavonoid biosyntheic path way in plants: function and evolution.Bioessays,1994,16:123-132
[172]Koesy G, Von Ballmoos P, Suter M, et al. Inhibition of glutathione synthesis reduces chilling tolerance in maize. Planta,2000,211:528-536
[173]Liang P, Pardee A B. Differential display of eukaryotic m essenger RNA by means of the polymerase chainreaction. Science,1992,257(14):967-971
[174]Liu XQ, Bai XQ, Qian Q, et al. OsWRKY03, a rice transcriptional activator that funct-ions in defense signaling pathway upstream of OsNPR1. Cell Research,2005,15: 593-603
[175]Luo C, He X H, Chen H, et al.. Analysis of diversity and relationships among mango cultivars using start codontargeted (SCoT) markers.Biochemical Systematics and Ecology,2010,38(6):1176-1184.
[176]Luo Z R, Wang R Z. Persimmon in China:Domestication and traditional utilizations of genetic resources. Advances in Horticultural Science,2008,22(4):239-243
[177]Madoka Y, Mori H. Zcropetal disappearance of PSAD1 protein in pea axilary buds after the release of apical dominance. Plant Cell Physiol,2000,41(5):556-564
[178]Madoka Y, Mori H. Two novel transcripts expreessed in pea dormant axillary buds. Plant Cellphysiol,2000,41(3):274-281
[179]Maria Badenes, Ana Garces, Carlos Romero, et al. Genetic diversity of introduced and local Spanish persimmon cultivars revealed by RAPD markers. Genetic Resources and Crop Evolution,2003,50:579-585
[180]Martin G.B., Brommonschenkel S H., ChunWongse J, et al. Map ased cloning of a protein kinase gene conferring disease resistance in tomato. Science,1993,262(5138): 1432-436
[181]Martin C R. Structure, function, and regulation of the chalcone synthase. Internation review of cytology,1993,147:233-284
[182]Martinez Zamora M. G, Castagnaro A P, Daz J C. RicciIsolation and diversity analysis of resistance gene analogues (RGAs) from cultivated and wild strawberries. Mol Gen Genomics,2004,272:480-487
[183]Masumi Yamagishi, Shigehito Matsumoto, Akira Nakatsuka, et al. Identification of persimmon(Diospyros kaki) cultivars and phenetic relationships between Diospyros species by more effective RAPD analysis. Scientia Horticulturae,2005,105:283-290
[184]Maya L P, Cohen R, Oded Y, et al. Trifluralin herbicide-induced resistance of melon to fusarium wilt involves expression of stress-and defence-related genes. Molecular Plant Pathology,2007,8(1):9-22
[185]Mauro Herrera M, Meerow A W, Borrone J, et al. Ten informative markers developed from WRKY sequences in coconut (Cocosnuci fera). Molecular Ecology Notes,2006,6: 904-906
[186]Mittler R, Zilinskas B A. Regulation of pea cytosolic ascorbate peroxidase and other antioxidant enzymes during the progression of drought stress and following recovery from drought. The Plant Journal,1994,5(3):397-405
[187]Nakamura Y, Kobayashi S. DNA restriction fragment length variability in Diospyros kaki and related Dispecies. HortSci,1994,29:809-811
[188]Nakatsuka A, Iwami N, Matsumoto S, et al. Tyl-cop is group retrotransposons in persimmon(Diospyros kaki Thunb.). Genes Genet Syst,2002,77:131-136
[189]Nei M. Genetic distance between populations[J]. American Naturalist,1972,106: 283-292.
[190]Ng F S P. Diospyros roxburghii and the origin of Diospyros kaki. Malaysian Forester, 1978,41:43-50
[191]Pan Q, Wendel J, and Fluhr R. Divergent evolution of plant NBS-RR resistance gene homologues in dicot and creal genomes. Mol. Evol.,2000,50(3):203-213
[192]Parker J E, Coleman M J, Szabo V, et al. Downy mildew resistance gene RPPS shares similarity to the Toll and Interleukin-receptors With N and L6, Plant Cell,1997,9: 879-94
[193]Peneli L, H allak2Herr E, Rozenberg M, et al. Molecular and biochemical mechan isms associated with dormancy and drought tolerance in the desert legume Retama raetam. Plan t Journal,2002,31:319-330
[194]Pinhero R G, Rao M V, Paliyath G, et al. Changes in activities of antioxidant enzymes and their relationship to genetic and paclobutrazol-induced chilling tolerance of maize seedlings. Plant Physiology,1997,114(2):695-704
[195]Rafael P T, Estra G. The tomato Cu, Zn superoxide dismutase genes are developmentally regulated and respond to light and stress. Plant Molecular Biology, 1991,17(4):745-760
[196]Rizhsky L, Liang H J, and Mittler R. The combined effect of drought stress and heats hock on gene expression in tobacco. Plant Physiology,2002,130:1143-1151
[197]Rushton P J, Macdonald H, Huttly A K, et al. Members of a new family of DNA binding proteins bind to a conserved cis element in the promoters of a-Amy genes. PI ant Molecular Biology,1995,29:691-702
[198]Rushton P J, Torres J T, Parnis ke M, et al. Interaction of elicitor induced DNA binding proteins with elicitor res ponse elements in the promoters of parsl ey PR1 genes. EMBO Journal,1996,15:5690-5700
[199]Saxena IM, Brown R M Jr. Cellulose synthase and related enzymes. Current Opinion in Plant Biology,2000,3(6):523-531.
[200]Seki M, Narusaka M, Ishida J, et al. Monitoring the expression profiles of 7000 Arabidopsis genes under drought, cold and high salinity stresses using a full length cDNA microarray. PI ant Journal,2002,31:279-292
[201]Shinya Maki, Keiji Oyama, Takao Kurahashi, et al. RFLP analysis for cultivar identification of persimmons. Scientia Horticulrae,2001,91:407-412
[202]Song W Y, Wang G L, Chen L L, et al. A receptor kinase-like protein encoded by the rice disease resistancegene, Xa21, Science,1995,270 (5243):1804-1806
[203]Sugiura A, Yonemori K, Tetsumura T, et al. Identification of pollination-constant and non-astringent type cultivars of Japanese persimmon by leaf isozyme analysis. Japan Soc Hort Sci,1990,59(Supply):44-45
[204]Sun CX, Palmqvist S, Ols son H, et al. A Novel WRKY transcription factor, SUSIBA2, participates in sugar signaling in barley by binding to the sugar responsive elements of the isol promoter. Plant Cell,2003,15:2076-2092
[205]Tanaka Y, Hibino T, Hayashi Y, et al. Salt tolerance of transgenic rice overexpressing yeast mitochondrial Mn-SOD in chloroplasts. Plant Science,1999,148(2):131-138
[206]Tao R and A Sugiura. Cultivar identification of Japanese persimmon by leaf isozymes, Hort. Scence,1987,22:932-935
[207]Tao R, A Tetsumira and A Sigiura.Use of leaf isozymes to discriminate among Japanese persimmon(Diospyres kaki L.)cultivars.Memoirs College Agr. Kyoto univ.,1989, 135:31-42
[208]Tsang E W T, Bowler C, Herouart D, et al. Differential regulation of superoxide dismutases in plants exposed to environmental stress. Plant Cell,1991,3(8):783-792
[209]Veberic R, Jurhar J, Mikulic-Petkovsek M, et al. Comparative study of primary and secondary metabolites in 11 cultivars of persimmon fruit (Diospyros kaki L.). Food Chem,2010,119:477-483
[210]Wang Renzi, Yang Yong, Li Gaocao.1997. Chinese persimmon germplasmresources[J]. Acta Hortic 436:43-50
[211]Wang Z P, Yang P Z, Fan B F, et al. An oligo select ion procedure for identification of sequence specific DNA binding activities associated with the plant defence response. Plant Journal,1998,16:515-522
[213]Wildi B, Lutz C. Antioxidant composition of seleeted high alpine plant speeies from different altitudes. Plant Cell Environ,1996,19:138-146
[214]Won D S, Yeun D Ch, Tae C K, et al. Science and Industry of persimmon in the Republic of Korea. The fifth internation symposium on persimmon,2012
[215]Wu G, Wilen R W, Robertson A J, et al. Isolation, chromosomal localization, and differential expression of mitochondrial manganese superoxide dismutase and chloroplastic copper/zinc superoxide dismutase genes in wheat. Plant Physiology,1999, 120(2):513-520
[216]Wu H L, Ni Z L,Yao Y Y,et al. Cloning and expression profiles of 15 genes encoding WRKY transcription factor in wheat (Triticum aestivem L.). Progress in Natural Science,2008,18:697-705
[217]Wu L G, Joshi C P, Chiang V L. A xylem specific cellulose synthase gene from aspen (Populus tremuloides) is responsive to mechanical stress. Plant Journal,2000,22(6): 495-502
[218]Xiong F Q, Zhong R C, Han Z Q.2011.Start codon targeted polymorphism for evaluation of functional genetic variation andrelationships in cultivated peanut (Arachis hypogaea L.) genotypes.Mol Biol Rep,38:3487-3494.
[219]Xu Y H, Wang J W, et al. Characterizat ion of GaWRKYl, a cotton transcription factor that regulates the sesquiterpene synthase gene (+)-D-cadinene synthase-A. Plant Physiology,2004,135:507-515
[220]Yamane H, Yamada M, Kurihara A, et al. Tanrei and Kinshuu, new Japanese persimmon cultivars.Bul Fruit Free Res Sta,1998b,30(31):15-24
[221]Yamane H, Kurihara A, Yamada M, et al.Yubeni.a new cultivar of Japanese persimmon. Japan Soc Hort Sci,1999,67(Suppl.1):51
[222]Yang Y, Ruan X F, Wang R Z, et al. A dvances in Research of Germplasm Resources and Breeding of Dispyros kaki L. Journal of Northwest Forestry University,2005,20(2): 133-137
[223]Yang P Z, Chen C H, Wang Z P, et al. A pathogen and salicylic acid induced WRKY DNA binding activity recognizes the elicitor response element of the tobacco class Ⅰ chitinase gene promoter. Plant Journal,1999,18:141-149
[224]Yonemori K. Persimmon industry and research activities in Japan Acta Hortic,1997, 436:21-32
[225]Yonemori K, Honsho C, Kitajima A, et al. Relationship of European persimmon (Diospyros kaki Thunb.) cultivars to Asian cultivars, characterized using AFLPs. Genet Res Crop Evol,2008,55:81-89
[226]Zhou B, Peng K, Chu Z, et al. The defense-responsive genes showing enhanced and repressed expression after pathogen infection in rice(Oryza sativa LI). Science in China (Series C),2002,45:450-467
[227]Soriano J. M., Pecchioli S, Romero C, et al. Development of microsatellite markers in polyploid persimmon(Diospyros kaki Lf) from an enriched genomic library. Molecular Ecology Notes,2006,6:368-370
[228]Zhang Y F, Zhang Q L, Yang Y, et al. Deleopment of Japanese persimmon core collection by genetic distance sampling based on SSR markers. Biotechnol. & Biotechnol. Eq.2009,23(4),1474-1478
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |