Mansoor S

References (2)

Title : RNAi-mediated mortality of the whitefly through transgenic expression of double-stranded RNA homologous to acetylcholinesterase and ecdysone receptor in tobacco plants - Malik_2016_Sci.Rep_6_38469
Author(s) : Malik HJ , Raza A , Amin I , Scheffler JA , Scheffler BE , Brown JK , Mansoor S
Ref : Sci Rep , 6 :38469 , 2016
Abstract : The whitefly Bemisia tabaci (Genn.) is a pest and vector of plant viruses to crop and ornamental plants worldwide. Using RNA interference (RNAi) to down regulate whitefly genes by expressing their homologous double stranded RNAs in plants has great potential for management of whiteflies to reduce plant virus disease spread. Using a Tobacco rattle virus-derived plasmid for in planta transient expression of double stranded RNA (dsRNA) homologous to the acetylcholinesterase (AChE) and ecdysone receptor (EcR) genes of B. tabaci, resulted in significant adult whitefly mortality. Nicotiana tabacum L. plants expressing dsRNA homologous to B. tabaci AChE and EcR were constructed by fusing sequences derived from both genes. Mortality of adult whiteflies exposed to dsRNA by feeding on N. tabacum plants, compared to non-dsRNA expressing plants, recorded at 24-hr intervals post-ingestion for three days, was >90% and 10%, respectively. Analysis of gene expression by real time quantitative PCR indicated that whitefly mortality was attributable to the down-regulation of both target genes by RNAi. Results indicated that knock down of whitefly genes involved in neuronal transmission and transcriptional activation of developmental genes, has potential as a bio-pesticide to reduce whitefly population size and thereby decrease virus spread.
ESTHER : Malik_2016_Sci.Rep_6_38469
PubMedSearch : Malik_2016_Sci.Rep_6_38469
PubMedID: 27929123
Gene_locus related to this paper: bemta-ACHE1

Title : Repeated polyploidization of Gossypium genomes and the evolution of spinnable cotton fibres - Paterson_2012_Nature_492_423
Author(s) : Paterson AH , Wendel JF , Gundlach H , Guo H , Jenkins J , Jin D , Llewellyn D , Showmaker KC , Shu S , Udall J , Yoo MJ , Byers R , Chen W , Doron-Faigenboim A , Duke MV , Gong L , Grimwood J , Grover C , Grupp K , Hu G , Lee TH , Li J , Lin L , Liu T , Marler BS , Page JT , Roberts AW , Romanel E , Sanders WS , Szadkowski E , Tan X , Tang H , Xu C , Wang J , Wang Z , Zhang D , Zhang L , Ashrafi H , Bedon F , Bowers JE , Brubaker CL , Chee PW , Das S , Gingle AR , Haigler CH , Harker D , Hoffmann LV , Hovav R , Jones DC , Lemke C , Mansoor S , ur Rahman M , Rainville LN , Rambani A , Reddy UK , Rong JK , Saranga Y , Scheffler BE , Scheffler JA , Stelly DM , Triplett BA , Van Deynze A , Vaslin MF , Waghmare VN , Walford SA , Wright RJ , Zaki EA , Zhang T , Dennis ES , Mayer KF , Peterson DG , Rokhsar DS , Wang X , Schmutz J
Ref : Nature , 492 :423 , 2012
Abstract : Polyploidy often confers emergent properties, such as the higher fibre productivity and quality of tetraploid cottons than diploid cottons bred for the same environments. Here we show that an abrupt five- to sixfold ploidy increase approximately 60 million years (Myr) ago, and allopolyploidy reuniting divergent Gossypium genomes approximately 1-2 Myr ago, conferred about 30-36-fold duplication of ancestral angiosperm (flowering plant) genes in elite cottons (Gossypium hirsutum and Gossypium barbadense), genetic complexity equalled only by Brassica among sequenced angiosperms. Nascent fibre evolution, before allopolyploidy, is elucidated by comparison of spinnable-fibred Gossypium herbaceum A and non-spinnable Gossypium longicalyx F genomes to one another and the outgroup D genome of non-spinnable Gossypium raimondii. The sequence of a G. hirsutum A(t)D(t) (in which 't' indicates tetraploid) cultivar reveals many non-reciprocal DNA exchanges between subgenomes that may have contributed to phenotypic innovation and/or other emergent properties such as ecological adaptation by polyploids. Most DNA-level novelty in G. hirsutum recombines alleles from the D-genome progenitor native to its New World habitat and the Old World A-genome progenitor in which spinnable fibre evolved. Coordinated expression changes in proximal groups of functionally distinct genes, including a nuclear mitochondrial DNA block, may account for clusters of cotton-fibre quantitative trait loci affecting diverse traits. Opportunities abound for dissecting emergent properties of other polyploids, particularly angiosperms, by comparison to diploid progenitors and outgroups.
ESTHER : Paterson_2012_Nature_492_423
PubMedSearch : Paterson_2012_Nature_492_423
PubMedID: 23257886
Gene_locus related to this paper: gosra-a0a0d2qg22 , gosra-a0a0d2w3z1 , gosra-a0a0d2uuz7 , gosra-a0a0d2rxs2 , gosra-a0a0d2sdk0 , gosra-a0a0d2tng2 , gosra-a0a0d2twz7 , gosra-a0a0d2vdc5 , gosra-a0a0d2vj24 , gosra-a0a0d2sr31 , goshi-a0a1u8knd1 , goshi-a0a1u8nhw9 , goshi-a0a1u8kis4 , gosra-a0a0d2pul0 , gosra-a0a0d2p3f2 , gosra-a0a0d2ril5 , gosra-a0a0d2s7d5 , gosra-a0a0d2t9b3 , gosra-a0a0d2tw88 , gosra-a0a0d2umz5 , gosra-a0a0d2pzd7 , gosra-a0a0d2scu7 , gosra-a0a0d2vcx6