Cannon SB

References (4)

Title : The genome sequences of Arachis duranensis and Arachis ipaensis, the diploid ancestors of cultivated peanut - Bertioli_2016_Nat.Genet_48_438
Author(s) : Bertioli DJ , Cannon SB , Froenicke L , Huang G , Farmer AD , Cannon EK , Liu X , Gao D , Clevenger J , Dash S , Ren L , Moretzsohn MC , Shirasawa K , Huang W , Vidigal B , Abernathy B , Chu Y , Niederhuth CE , Umale P , Araujo AC , Kozik A , Kim KD , Burow MD , Varshney RK , Wang X , Zhang X , Barkley N , Guimaraes PM , Isobe S , Guo B , Liao B , Stalker HT , Schmitz RJ , Scheffler BE , Leal-Bertioli SC , Xun X , Jackson SA , Michelmore R , Ozias-Akins P
Ref : Nat Genet , 48 :438 , 2016
Abstract : Cultivated peanut (Arachis hypogaea) is an allotetraploid with closely related subgenomes of a total size of -2.7 Gb. This makes the assembly of chromosomal pseudomolecules very challenging. As a foundation to understanding the genome of cultivated peanut, we report the genome sequences of its diploid ancestors (Arachis duranensis and Arachis ipaensis). We show that these genomes are similar to cultivated peanut's A and B subgenomes and use them to identify candidate disease resistance genes, to guide tetraploid transcript assemblies and to detect genetic exchange between cultivated peanut's subgenomes. On the basis of remarkably high DNA identity of the A. ipaensis genome and the B subgenome of cultivated peanut and biogeographic evidence, we conclude that A. ipaensis may be a direct descendant of the same population that contributed the B subgenome to cultivated peanut.
ESTHER : Bertioli_2016_Nat.Genet_48_438
PubMedSearch : Bertioli_2016_Nat.Genet_48_438
PubMedID: 26901068
Gene_locus related to this paper: aradu-a0a6p4dix2 , aradu-a0a6p4dpj0 , aradu-a0a6p4dix7

Title : A reference genome for common bean and genome-wide analysis of dual domestications - Schmutz_2014_Nat.Genet_46_707
Author(s) : Schmutz J , McClean PE , Mamidi S , Wu GA , Cannon SB , Grimwood J , Jenkins J , Shu S , Song Q , Chavarro C , Torres-Torres M , Geffroy V , Moghaddam SM , Gao D , Abernathy B , Barry K , Blair M , Brick MA , Chovatia M , Gepts P , Goodstein DM , Gonzales M , Hellsten U , Hyten DL , Jia G , Kelly JD , Kudrna D , Lee R , Richard MM , Miklas PN , Osorno JM , Rodrigues J , Thareau V , Urrea CA , Wang M , Yu Y , Zhang M , Wing RA , Cregan PB , Rokhsar DS , Jackson SA
Ref : Nat Genet , 46 :707 , 2014
Abstract : Common bean (Phaseolus vulgaris L.) is the most important grain legume for human consumption and has a role in sustainable agriculture owing to its ability to fix atmospheric nitrogen. We assembled 473 Mb of the 587-Mb genome and genetically anchored 98% of this sequence in 11 chromosome-scale pseudomolecules. We compared the genome for the common bean against the soybean genome to find changes in soybean resulting from polyploidy. Using resequencing of 60 wild individuals and 100 landraces from the genetically differentiated Mesoamerican and Andean gene pools, we confirmed 2 independent domestications from genetic pools that diverged before human colonization. Less than 10% of the 74 Mb of sequence putatively involved in domestication was shared by the two domestication events. We identified a set of genes linked with increased leaf and seed size and combined these results with quantitative trait locus data from Mesoamerican cultivars. Genes affected by domestication may be useful for genomics-enabled crop improvement.
ESTHER : Schmutz_2014_Nat.Genet_46_707
PubMedSearch : Schmutz_2014_Nat.Genet_46_707
PubMedID: 24908249
Gene_locus related to this paper: phavu-v7azs2 , phavu-v7awu7 , phavu-v7bpt6 , phavu-v7b6k3 , phavu-v7cry4

Title : The Medicago genome provides insight into the evolution of rhizobial symbioses - Young_2011_Nature_480_520
Author(s) : Young ND , Debelle F , Oldroyd GE , Geurts R , Cannon SB , Udvardi MK , Benedito VA , Mayer KF , Gouzy J , Schoof H , Van de Peer Y , Proost S , Cook DR , Meyers BC , Spannagl M , Cheung F , De Mita S , Krishnakumar V , Gundlach H , Zhou S , Mudge J , Bharti AK , Murray JD , Naoumkina MA , Rosen B , Silverstein KA , Tang H , Rombauts S , Zhao PX , Zhou P , Barbe V , Bardou P , Bechner M , Bellec A , Berger A , Berges H , Bidwell S , Bisseling T , Choisne N , Couloux A , Denny R , Deshpande S , Dai X , Doyle JJ , Dudez AM , Farmer AD , Fouteau S , Franken C , Gibelin C , Gish J , Goldstein S , Gonzalez AJ , Green PJ , Hallab A , Hartog M , Hua A , Humphray SJ , Jeong DH , Jing Y , Jocker A , Kenton SM , Kim DJ , Klee K , Lai H , Lang C , Lin S , Macmil SL , Magdelenat G , Matthews L , McCorrison J , Monaghan EL , Mun JH , Najar FZ , Nicholson C , Noirot C , O'Bleness M , Paule CR , Poulain J , Prion F , Qin B , Qu C , Retzel EF , Riddle C , Sallet E , Samain S , Samson N , Sanders I , Saurat O , Scarpelli C , Schiex T , Segurens B , Severin AJ , Sherrier DJ , Shi R , Sims S , Singer SR , Sinharoy S , Sterck L , Viollet A , Wang BB , Wang K , Wang M , Wang X , Warfsmann J , Weissenbach J , White DD , White JD , Wiley GB , Wincker P , Xing Y , Yang L , Yao Z , Ying F , Zhai J , Zhou L , Zuber A , Denarie J , Dixon RA , May GD , Schwartz DC , Rogers J , Quetier F , Town CD , Roe BA
Ref : Nature , 480 :520 , 2011
Abstract : Legumes (Fabaceae or Leguminosae) are unique among cultivated plants for their ability to carry out endosymbiotic nitrogen fixation with rhizobial bacteria, a process that takes place in a specialized structure known as the nodule. Legumes belong to one of the two main groups of eurosids, the Fabidae, which includes most species capable of endosymbiotic nitrogen fixation. Legumes comprise several evolutionary lineages derived from a common ancestor 60 million years ago (Myr ago). Papilionoids are the largest clade, dating nearly to the origin of legumes and containing most cultivated species. Medicago truncatula is a long-established model for the study of legume biology. Here we describe the draft sequence of the M. truncatula euchromatin based on a recently completed BAC assembly supplemented with Illumina shotgun sequence, together capturing approximately 94% of all M. truncatula genes. A whole-genome duplication (WGD) approximately 58 Myr ago had a major role in shaping the M. truncatula genome and thereby contributed to the evolution of endosymbiotic nitrogen fixation. Subsequent to the WGD, the M. truncatula genome experienced higher levels of rearrangement than two other sequenced legumes, Glycine max and Lotus japonicus. M. truncatula is a close relative of alfalfa (Medicago sativa), a widely cultivated crop with limited genomics tools and complex autotetraploid genetics. As such, the M. truncatula genome sequence provides significant opportunities to expand alfalfa's genomic toolbox.
ESTHER : Young_2011_Nature_480_520
PubMedSearch : Young_2011_Nature_480_520
PubMedID: 22089132
Gene_locus related to this paper: medtr-b7fki4 , medtr-b7fmi1 , medtr-g7itl1 , medtr-g7iu67 , medtr-g7izm0 , medtr-g7j641 , medtr-g7jtf8 , medtr-g7jtg2 , medtr-g7jtg4 , medtr-g7kem3 , medtr-g7kml3 , medtr-g7ksx5 , medtr-g7leb3 , medtr-q1s5d8 , medtr-q1s9m3 , medtr-q1t171 , medtr-g7k9e1 , medtr-g7k9e3 , medtr-g7k9e5 , medtr-g7k9e8 , medtr-g7k9e9 , medtr-g7lbp2 , medtr-g7lch3 , medtr-g7ib94 , medtr-g7ljk8 , medtr-g7i6w5 , medtr-g7kvg4 , medtr-g7iam1 , medtr-g7iam3 , medtr-g7l754 , medtr-g7jr41 , medtr-g7l4f5 , medtr-g7l755 , medtr-a0a072vyl4 , medtr-g7jwk8 , medtr-a0a072vhg0 , medtr-a0a072vrv9 , medtr-g7kmk5 , medtr-a0a072uuf6 , medtr-a0a072urp3 , medtr-g7zzc3 , medtr-g7ie19 , medtr-g7kst7 , medtr-a0a072u5k5 , medtr-a0a072v056 , medtr-scp1 , medtr-g7kyn0 , medtr-g7inw6 , medtr-g7j3q3

Title : Genome sequence of the palaeopolyploid soybean - Schmutz_2010_Nature_463_178
Author(s) : Schmutz J , Cannon SB , Schlueter J , Ma J , Mitros T , Nelson W , Hyten DL , Song Q , Thelen JJ , Cheng J , Xu D , Hellsten U , May GD , Yu Y , Sakurai T , Umezawa T , Bhattacharyya MK , Sandhu D , Valliyodan B , Lindquist E , Peto M , Grant D , Shu S , Goodstein D , Barry K , Futrell-Griggs M , Abernathy B , Du J , Tian Z , Zhu L , Gill N , Joshi T , Libault M , Sethuraman A , Zhang XC , Shinozaki K , Nguyen HT , Wing RA , Cregan P , Specht J , Grimwood J , Rokhsar D , Stacey G , Shoemaker RC , Jackson SA
Ref : Nature , 463 :178 , 2010
Abstract : Soybean (Glycine max) is one of the most important crop plants for seed protein and oil content, and for its capacity to fix atmospheric nitrogen through symbioses with soil-borne microorganisms. We sequenced the 1.1-gigabase genome by a whole-genome shotgun approach and integrated it with physical and high-density genetic maps to create a chromosome-scale draft sequence assembly. We predict 46,430 protein-coding genes, 70% more than Arabidopsis and similar to the poplar genome which, like soybean, is an ancient polyploid (palaeopolyploid). About 78% of the predicted genes occur in chromosome ends, which comprise less than one-half of the genome but account for nearly all of the genetic recombination. Genome duplications occurred at approximately 59 and 13 million years ago, resulting in a highly duplicated genome with nearly 75% of the genes present in multiple copies. The two duplication events were followed by gene diversification and loss, and numerous chromosome rearrangements. An accurate soybean genome sequence will facilitate the identification of the genetic basis of many soybean traits, and accelerate the creation of improved soybean varieties.
ESTHER : Schmutz_2010_Nature_463_178
PubMedSearch : Schmutz_2010_Nature_463_178
PubMedID: 20075913
Gene_locus related to this paper: soybn-c6t4m5 , soybn-c6t4p4 , soybn-c6tav4 , soybn-c6tdf9 , soybn-c6tiz7 , soybn-c6tmg3 , soybn-i1jgq5 , soybn-i1kpj2 , soybn-i1kwe7 , soybn-i1l7e3 , soybn-i1l497 , soybn-i1ll09 , soybn-i1lpi4 , soybn-i1jcw2 , soybn-i1jcw3 , soybn-i1jcw4 , soybn-i1jcw7 , soybn-i1k217 , soybn-i1kfz3 , soybn-i1lhi0 , soybn-k7k6s4 , soybn-i1jtw1 , soybn-c6tas4 , soybn-i1m910 , soybn-c6t7k8 , soybn-i1k636 , soybn-i1kju7 , soybn-i1j4c6 , soybn-i1lbk2 , soybn-i1jqy5 , soybn-i1nbj8 , soybn-i1j855 , soybn-i1l5a3 , soybn-k7mt28 , soybn-i1lau7 , soybn-i1lay0 , soybn-i1net3 , soybn-i1jr09 , soybn-i1ms08 , soybn-i1mmh5 , soybn-i1mly5 , soybn-i1mmh3 , soybn-i1mmh4 , soybn-i1ngu7 , soybn-k7ll20 , soybn-i1mly4 , soybn-a0a0r0i9y7 , soybn-a0a0r0j241 , soybn-i1les8 , soybn-k7n313 , soybn-i1kfj1 , soybn-a0a0r0k7x4 , soybn-i1ly30 , soybn-i1mwr8 , soybn-i1kfg5 , soybn-i1kly2 , soybn-a0a0r0ixi2 , soybn-i1jew0 , glyso-a0a445l5n1 , soybn-i1kfz9 , soybn-i1jqs1 , soybn-i1nbc7 , soybn-k7mm57 , soybn-a0a0r0fec7 , soybn-a0a0r0hcn9 , soybn-i1jx17 , soybn-k7kvv2 , soybn-i1kcl6 , soybn-i1kcl7 , soybn-i1jrc3 , soybn-i1nbz1 , soybn-a0a0r0euk2 , soybn-a0a0r0fx16 , soybn-a0a0r0k3t3 , soybn-i1kuc7 , soybn-i1lvy4