Transformation-competent artificial chromosome system is able to clone and transfer genes efficiently in plants.In order to clone genes highly tolerant to barley yellow dwarf virus(BYDV),Aphids,drought and salt from L...Transformation-competent artificial chromosome system is able to clone and transfer genes efficiently in plants.In order to clone genes highly tolerant to barley yellow dwarf virus(BYDV),Aphids,drought and salt from Leymus multicaulis,the two TAC genomic libraries I and II were constructed in vector pYLTAC17 and pYLTAC747H/sacB,which contain about 165000 and 236000 recombinant clones sepa-rately.The genome coverage of the two libraries was totally estimated to be about 3―5 haploid genome equivalents,as size selection of genomic DNA fragments was approximately from 9 to 300 kb.Clones of the genomic libraries were collected as bulked pools each containing 500 clones or so,stored in twelve 96-deep-well plates and then were gridding in triplicate onto a high-density colony hybridization filter with a 3×3 pattern using a GeneTAC?G3 arraying robot after being transferred manually into three 384-well plates.Meanwhile 2501 and 2890 clones of Library in pYLTAC17 and in pYLTAC747H/sacB were stored individually in fourteen 384-well plates and then were automatically gridding in duplicate onto a high-density colony hybridization filter with a 6×6 pattern after a replication of plates.Nineteen positive clones were detected by using the probe glutahione reductase gene of L.multicaulis.TAC libraries constructed here can be used to isolate genomic clones containing target genes,and to carry out genome walking for positional cloning.Once the target TAC clones were isolated,they could be immediately transferred into plant genomes with the Agrobacterium system.展开更多
对可转化人工染色体(TAC)pYLTAC747NH/sacB文库载体DNA的制备条件进行了较系统的摸索和研究。结果表明,该文库载体经碱裂解法提取、QIAGEN Plasmid Mini kit纯化后,可获得较纯净的载体DNA。对其闭环载体DNA分别用不同酶量的Hind III酶...对可转化人工染色体(TAC)pYLTAC747NH/sacB文库载体DNA的制备条件进行了较系统的摸索和研究。结果表明,该文库载体经碱裂解法提取、QIAGEN Plasmid Mini kit纯化后,可获得较纯净的载体DNA。对其闭环载体DNA分别用不同酶量的Hind III酶切处理,经琼脂糖凝胶电泳检测得出其最佳Hind III完全酶切条件为2 U Hind III/μg闭环载体DNA、37℃酶切30 min;分别用0.5 MBU和1 MBU HK脱磷酶/μg对其线性载体DNA进行脱磷处理,经电泳和载体自连产物电转化检测表明其适宜的完全脱磷条件为1 MBU HK脱磷酶/μg线性载体DNA,30℃脱磷1 h;将所制备的线性载体DNA与λDNA/Hind III酶切片段进行连接,连接产物转化频率较高,其电转化大肠杆菌DH10B感受态细胞频率可达到9.6×108。展开更多
Bacterial artificial chromosomes(BACs)or yeast artificial chromosomes(YACs)containing large inserts as probes for fluorescence in situ hybridization(FISH)have been used in the physical mapping of specific DNA sequence...Bacterial artificial chromosomes(BACs)or yeast artificial chromosomes(YACs)containing large inserts as probes for fluorescence in situ hybridization(FISH)have been used in the physical mapping of specific DNA sequences,especially for single-or low-copy sequences.Our earlier study identified Stpk-V,a powdery mildew resistance-related gene located on the 6VS chromosome arm of the wild grass Haynaldia villosa(tribe Triticeae),and obtained several Triticum aestivum–H.villosa alien chromosome lines carrying the Stpk-V gene.However,the precise physical location of the Stpk-V gene on chromosome 6VS is not known.In this study,we used TAC-FISH with TAC15 as the probe coupled with sequential genomic in situ hybridization(GISH)to determine the physical location of the Stpk-V gene in different T.aestivum–H.villosa 6V alien chromosome lines,including addition,substitution and translocation lines.The result indicated that the fraction length of the Stpk-V locus is 0.575±0.035 on the 6V chromosome short arm and this was confirmed by FISH using TAC15 as the probe for tracing the Stpk-V gene in other genetic stocks.The cytological mapping strategies used in this study will be of benefit for tracing the alien gene location in the course of introducing desirable traits from wild species.展开更多
Based on the sequence of a resistance gene analog FZ14 derived from Zizania latifolia (Griseb.), a pair of specific PCR primers FZ14P1/FZ14P2was designed to isolate candidate disease resistance gene. The pooled-PCR ...Based on the sequence of a resistance gene analog FZ14 derived from Zizania latifolia (Griseb.), a pair of specific PCR primers FZ14P1/FZ14P2was designed to isolate candidate disease resistance gene. The pooled-PCR approach was adopted using the primer pair to screen a genomic transformation-competent artificial chromosome (TAC) library derived from Z. latifolia. A positive TAC clone (ZR1) was obtained and confirmed by sequence analysis. The results indicated that ZR1 consisted of conserved motifs similar to P-loop (kinase la), kinase 2, kinase 3a and GLPL (Gly-Leu-Pro-Leu), suggesting that it could be a portion of NBS-LRR type of resistance gene. Using Agrobacterium-mediated transformation of Nipponbare mature embryo, a total of 48 independent transgenic To plants were obtained. Among them, 36 plants were highly resistant to the virulent bacterial blight strain PXO71. The results indicate that ZR1 contains at least one functional bacterial blight resistance gene.展开更多
基金the National Natural Science Foundation of China(Grant Nos.30370905 and 30571135)Natural Science Foundation of Beijing City(Grant No.5032009)
文摘Transformation-competent artificial chromosome system is able to clone and transfer genes efficiently in plants.In order to clone genes highly tolerant to barley yellow dwarf virus(BYDV),Aphids,drought and salt from Leymus multicaulis,the two TAC genomic libraries I and II were constructed in vector pYLTAC17 and pYLTAC747H/sacB,which contain about 165000 and 236000 recombinant clones sepa-rately.The genome coverage of the two libraries was totally estimated to be about 3―5 haploid genome equivalents,as size selection of genomic DNA fragments was approximately from 9 to 300 kb.Clones of the genomic libraries were collected as bulked pools each containing 500 clones or so,stored in twelve 96-deep-well plates and then were gridding in triplicate onto a high-density colony hybridization filter with a 3×3 pattern using a GeneTAC?G3 arraying robot after being transferred manually into three 384-well plates.Meanwhile 2501 and 2890 clones of Library in pYLTAC17 and in pYLTAC747H/sacB were stored individually in fourteen 384-well plates and then were automatically gridding in duplicate onto a high-density colony hybridization filter with a 6×6 pattern after a replication of plates.Nineteen positive clones were detected by using the probe glutahione reductase gene of L.multicaulis.TAC libraries constructed here can be used to isolate genomic clones containing target genes,and to carry out genome walking for positional cloning.Once the target TAC clones were isolated,they could be immediately transferred into plant genomes with the Agrobacterium system.
文摘对可转化人工染色体(TAC)pYLTAC747NH/sacB文库载体DNA的制备条件进行了较系统的摸索和研究。结果表明,该文库载体经碱裂解法提取、QIAGEN Plasmid Mini kit纯化后,可获得较纯净的载体DNA。对其闭环载体DNA分别用不同酶量的Hind III酶切处理,经琼脂糖凝胶电泳检测得出其最佳Hind III完全酶切条件为2 U Hind III/μg闭环载体DNA、37℃酶切30 min;分别用0.5 MBU和1 MBU HK脱磷酶/μg对其线性载体DNA进行脱磷处理,经电泳和载体自连产物电转化检测表明其适宜的完全脱磷条件为1 MBU HK脱磷酶/μg线性载体DNA,30℃脱磷1 h;将所制备的线性载体DNA与λDNA/Hind III酶切片段进行连接,连接产物转化频率较高,其电转化大肠杆菌DH10B感受态细胞频率可达到9.6×108。
基金supported by the National Basic Research Program of China(2009CB118304)the National Natural Science Foundation of China(31171540,30871519)+2 种基金the Program for New Century Excellent Talents in University(NCET-10-0496)the Independent Innovation of Agricultural Sciences(CX(11)1025)the Sci&Tech Project in Jiangsu Province(BE2011306)
文摘Bacterial artificial chromosomes(BACs)or yeast artificial chromosomes(YACs)containing large inserts as probes for fluorescence in situ hybridization(FISH)have been used in the physical mapping of specific DNA sequences,especially for single-or low-copy sequences.Our earlier study identified Stpk-V,a powdery mildew resistance-related gene located on the 6VS chromosome arm of the wild grass Haynaldia villosa(tribe Triticeae),and obtained several Triticum aestivum–H.villosa alien chromosome lines carrying the Stpk-V gene.However,the precise physical location of the Stpk-V gene on chromosome 6VS is not known.In this study,we used TAC-FISH with TAC15 as the probe coupled with sequential genomic in situ hybridization(GISH)to determine the physical location of the Stpk-V gene in different T.aestivum–H.villosa 6V alien chromosome lines,including addition,substitution and translocation lines.The result indicated that the fraction length of the Stpk-V locus is 0.575±0.035 on the 6V chromosome short arm and this was confirmed by FISH using TAC15 as the probe for tracing the Stpk-V gene in other genetic stocks.The cytological mapping strategies used in this study will be of benefit for tracing the alien gene location in the course of introducing desirable traits from wild species.
基金supported by the National Natural Science Foundation of China (Grant No. 30760115)Transgenic Program (Grant No. 2008ZX08001-002)
文摘Based on the sequence of a resistance gene analog FZ14 derived from Zizania latifolia (Griseb.), a pair of specific PCR primers FZ14P1/FZ14P2was designed to isolate candidate disease resistance gene. The pooled-PCR approach was adopted using the primer pair to screen a genomic transformation-competent artificial chromosome (TAC) library derived from Z. latifolia. A positive TAC clone (ZR1) was obtained and confirmed by sequence analysis. The results indicated that ZR1 consisted of conserved motifs similar to P-loop (kinase la), kinase 2, kinase 3a and GLPL (Gly-Leu-Pro-Leu), suggesting that it could be a portion of NBS-LRR type of resistance gene. Using Agrobacterium-mediated transformation of Nipponbare mature embryo, a total of 48 independent transgenic To plants were obtained. Among them, 36 plants were highly resistant to the virulent bacterial blight strain PXO71. The results indicate that ZR1 contains at least one functional bacterial blight resistance gene.
