Wendel JF

References (2)

Title : Insights into the Evolution of the New World Diploid Cottons (Gossypium, Subgenus Houzingenia) Based on Genome Sequencing - Grover_2019_Genome.Biol.Evol_11_53
Author(s) : Grover CE , Arick MA, 2nd , Thrash A , Conover JL , Sanders WS , Peterson DG , Frelichowski JE , Scheffler JA , Scheffler BE , Wendel JF
Ref : Genome Biol Evol , 11 :53 , 2019
Abstract : We employed phylogenomic methods to study molecular evolutionary processes and phylogeny in the geographically widely dispersed New World diploid cottons (Gossypium, subg. Houzingenia). Whole genome resequencing data (average of 33x genomic coverage) were generated to reassess the phylogenetic history of the subgenus and provide a temporal framework for its diversification. Phylogenetic analyses indicate that the subgenus likely originated following transoceanic dispersal from Africa about 6.6 Ma, but that nearly all of the biodiversity evolved following rapid diversification in the mid-Pleistocene (0.5-2.0 Ma), with multiple long-distance dispersals required to account for range expansion to Arizona, the Galapagos Islands, and Peru. Comparative analyses of cpDNAversus nuclear data indicate that this history was accompanied by several clear cases of interspecific introgression. Repetitive DNAs contribute roughly half of the total 880 Mb genome, but most transposable element families are relatively old and stable among species. In the genic fraction, pairwise synonymous mutation rates average 1% per Myr, with nonsynonymous changes being about seven times less frequent. Over 1.1 million indels were detected and phylogenetically polarized, revealing a 2-fold bias toward deletions over small insertions. We suggest that this genome down-sizing bias counteracts genome size growth by TE amplification and insertions, and helps explain the relatively small genomes that are restricted to this subgenus. Compared with the rate of nucleotide substitution, the rate of indel occurrence is much lower averaging about 17 nucleotide substitutions per indel event.
ESTHER : Grover_2019_Genome.Biol.Evol_11_53
PubMedSearch : Grover_2019_Genome.Biol.Evol_11_53
PubMedID: 30476109
Gene_locus related to this paper: gosra-a0a0d2pzd7

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