运用ISSR分子标记鉴定杉木×侧柏远交杂种

为了对杉木Cunninghamia lanceolata与侧柏Platycladus orientalis远交杂种的真实性进行鉴定,进行预备试验,从100条UBC primer Set#9(800～900)引物中,筛选出9条多态性引物。对杉木×侧柏远交组合A4(1419)×B1所得杂交后代中选择的4株超级苗等材料,提取DNA,进行聚合酶链式反应(PCR)扩增,并按母本、远交子代和父本顺序,对PCR产物进行电泳实验。结果发现,4株超级苗在7条引物中,共找到16条父系特征谱带,在另外2条引物中检测到父母的共同谱带。由此可以肯定,杂交所得超级苗是杉木与侧柏远缘杂交产生的杂种。杉木与侧柏远缘杂交是可配的,杉木远缘杂交育种是一条多性状改良途径。

Exploration and Innovation of Distant Hybridization Germplasm of Oryza sativa and Spartina alterniflora

[Objective] The aim was to explore salt-resistant Spartina alterniflora and high-yield rice with germplasm resource in order to create new salt-resistant rice species with dual-purpose of food and forage. [Method] From 2009 to 2011, re- searches on distant hybridization of Spartina alterniflora and Oryza Sativa have been conducted with method of distant hybridization breeding. On the other hand, break- through and combination techniques （four selected one） were adopted to find the new rice species, including techniques of planting and selection in seashore, cyto- logical detection and selection, phenotype selection of backcross, and molecular marker assisted selection. [Result] Success rate of distant hybridization from 2009 to 2010 was 1.39%. RAPD molecular identification of 7C14 and rice female parent of Zhongxiang No.l, seed 2 was carried on with distant hybridization of male parent of Spartina altemiflora （H）. The results showed that bands same with Spartina alterni- flora parents were found in RH-1-10K205-7C14xH, RH-2-8K157-7C14xH, and RH-13- 9H5-Zhongxaing No.1 xH. Considering absent situation in rice parents, distant hy- bridization strains above were found with same parental genetic element as Spartina alterniflora. Female parent of rice 7K339, however, was under RAPD molecular identification with male parent of Spartina alterniflora. The result showed that bands same with Spartina alterniflora parents were found in RH-5-10K215, RH-6-8K48, RH- 12-9H9, RH-14-9H8 and RH-16-9H28. Considering absent situation in rice parents, distant hybridization strains above were found with same parental genetic element as Spartina altemiflora. Rest hybrid strains were found variance with Spartina alterniflora parents and rice parents in varying degrees. [Conclusion] New and excellent rice species of dual-purpose solves problem not only about salt-resistant species badly needed in coastal development and treatment of saline and alkaline land, but about fine fodder and roughage for herbivore, as well. What＇s more, this is of scientific significance in recourse utilization, efficiency improvement in agriculture, food security, and cultivation strategy.

Exploration and Innovation of Distant Hybridization Germplasm of Spartina,Soughum bicolor and Oryza sativa

[Objective] This study aimed to explore the germplasm resources of salt-tolerant Spartina,sweet-stalk Soughum bicolor and high-yield Oryza sativa for innovation of new germplasms of salt-tolerant and sweet-stalk Oryza sativa with dual purpose of food and forage in sea beach.[Method] From 2009 to 2012,researches on distant hybridization of Spartina,Soughum bicolor and Oryza sativa had been carried out,and the RAPD molecular identification of obtained distant hybridization materials had been conducted.[Result] Experimental evidences of hybrid seed setting,transplanting and economic characters of hybrid materials were obtained;among the 14 hybrid materials for RAPD analysis,5 materials shared common bands with Spartina and Soughum bicolor parents,which were absent in Oryza sativa parent,indicating that the genetic component of Spartina and Soughum bicolor parents has been integrated into the 5 distant hybrids.[Conclusion] This study has important scientific significance in recourse utilization,agricultural efficiency improvement,food security,and cultivation strategy of China,showing broad application prospects.

An Innovative Strategy for Reciprocal Distant Hybridization between Spartina alterniflora and Rice

[Objective] This study aimed to explore germplasm resources of salt toler- ant Spartina alterniflora and high yield rice, and develop an innovative strategy for distant hybridization between S. altemiflora and rice. [Method] Crossing （rice ♀ ）： hot water emasculation and glume-cutting pollination method, heat emasculation and pollen-suction pollination method; reciprocal crossing （S. alterniflora ♀ glume-cutting emasculation and pollination method, continuous emasculation-pollination method, hot water emasculation and continuous emasculation-pollination method. [Result] In crossing groups （rice ♀ × S. alterniflora ♂ ）, compared with hot water emasculation and glume-cutting pollination treatment, the number of seed-bearing combinations, seed number per spike and seedling emergence rate in heat emasculation and pollen-suction pollination treatment were improved by 34.09%, 121.21% and 60.07%, respectively; hybridization efficiency was improved by 6-7 times. In reciprocal cross- ing groups （S. altemiflora ♀× rice ♂ ）, compared with glume-cutting emasculation and pollination treatment, the number of seed-bearing combinations and seed num- ber per spike in continuous emasculation-pollination treatment were improved by 3.14 and 4.21 times, respectively; seedling emergence rate was improved by 68.47%; hybridization efficiency was improved by 7-8 times. [Conclusion] Heat emas- culation and pollen-suction pollination method is suitable for hybridization between rice ♀× S. alterniflora ♂; continuous emasculation-pollination method is suitable for hybridization between S. alterniflora ♀× rice ♂.

Research advances in animal distant hybridization

Distant hybridization refers to crosses between two different species or higher-ranking taxa that enables interspecific genome transfer and leads to changes in phenotypes and genotypes of the resulting progeny.If progeny derived from distant hybridization are bisexual and fertile,they can form a hybrid lineage through self-mating,with major implications for evolutionary biology,genetics,and breeding.Here,we review and summarize the published literature,and present our results on fish distant hybridization.Relevant problems involving distant hybridization between orders,families,subfamilies,genera,and species of animals are introduced and discussed,with an additional focus on fish distant hybrid lineages,genetic variation,patterns,and applications.Our review serves as a useful reference for evolutionary biology research and animal genetic breeding.