In order to understand molecular characterization of Citrus tatter leaf virus(CTLV) isolated from China,full-length cDNAs of CTLV-MTH and CTLV-XHC from Citrus reticulata and Citrus sinensis were cloned and sequenced...In order to understand molecular characterization of Citrus tatter leaf virus(CTLV) isolated from China,full-length cDNAs of CTLV-MTH and CTLV-XHC from Citrus reticulata and Citrus sinensis were cloned and sequenced based on whole-genome amplification by RT-PCR.The complete nucleotide sequences of CTLV-MTH and CTLV-XHC were determined to be 6497 nucleotides in length and shared 79.9-91.0%and 78.8-98.0%nucleotide sequence identity,respectively,with other Apple stem grooving virus(ASGV) or CTLV strains available in GenBank.Unexpectedly,CTLV-MTH showed the highest nucleotide sequence identity(91%) with an apple isolate of ASGV,followed by 86.5%with ASGV-HH and 85.7%with ASGV-CHN.Furthermore,CTLV-MTH and three ASGV strains were grouped to a separate cluster in the phylogenetic tree,suggesting it has a closer relationship to ASGV than to CTLV.Therefore,it can be concluded roughly that CTLV may be not a distinct strains of ASGV.We proposed that Citrus tatter leaf virus should be renamed Apple stem grooving virus.展开更多
The differential hybridization technique hasbeen widely used to identify genes that are dif-ferentially expressed.However,this approachhas several drawbacks.First,the screeningprocedures are rather labor-intensive and...The differential hybridization technique hasbeen widely used to identify genes that are dif-ferentially expressed.However,this approachhas several drawbacks.First,the screeningprocedures are rather labor-intensive and time-consuming.Second,the amount of phageDNAs transferred onto the two filters may notbe equivalent,which leads to an inaccurate se-lection of a positive clone.Third,isolation ofphage DNA is slow and cumbersome.Here,aPCR based differential screening method that展开更多
High affinity phosphate transporterplays an important role in plantadapting to low phosphorus. Isolationof genes coding this kind of proteinhas attracted worldwide scholars toaccomplish. We aimed to isolate thegene an...High affinity phosphate transporterplays an important role in plantadapting to low phosphorus. Isolationof genes coding this kind of proteinhas attracted worldwide scholars toaccomplish. We aimed to isolate thegene and transfer it to target plants展开更多
基金supported by the Special Fund for Agro-Scientific Research in the Public Interest of China(201203076)the 111 Project,China(B12006)+1 种基金the Fundamental Research Funds for the Central Universities,China(XDJK2013C161,SWU113097)the Basic and Frontier Research Programs of Chongqing,China(CSTC2014jcyjA80033)
文摘In order to understand molecular characterization of Citrus tatter leaf virus(CTLV) isolated from China,full-length cDNAs of CTLV-MTH and CTLV-XHC from Citrus reticulata and Citrus sinensis were cloned and sequenced based on whole-genome amplification by RT-PCR.The complete nucleotide sequences of CTLV-MTH and CTLV-XHC were determined to be 6497 nucleotides in length and shared 79.9-91.0%and 78.8-98.0%nucleotide sequence identity,respectively,with other Apple stem grooving virus(ASGV) or CTLV strains available in GenBank.Unexpectedly,CTLV-MTH showed the highest nucleotide sequence identity(91%) with an apple isolate of ASGV,followed by 86.5%with ASGV-HH and 85.7%with ASGV-CHN.Furthermore,CTLV-MTH and three ASGV strains were grouped to a separate cluster in the phylogenetic tree,suggesting it has a closer relationship to ASGV than to CTLV.Therefore,it can be concluded roughly that CTLV may be not a distinct strains of ASGV.We proposed that Citrus tatter leaf virus should be renamed Apple stem grooving virus.
文摘The differential hybridization technique hasbeen widely used to identify genes that are dif-ferentially expressed.However,this approachhas several drawbacks.First,the screeningprocedures are rather labor-intensive and time-consuming.Second,the amount of phageDNAs transferred onto the two filters may notbe equivalent,which leads to an inaccurate se-lection of a positive clone.Third,isolation ofphage DNA is slow and cumbersome.Here,aPCR based differential screening method that
文摘High affinity phosphate transporterplays an important role in plantadapting to low phosphorus. Isolationof genes coding this kind of proteinhas attracted worldwide scholars toaccomplish. We aimed to isolate thegene and transfer it to target plants