Condon_2013_PLoS.Genet_9_E1003233

Reference

Title : Comparative genome structure, secondary metabolite, and effector coding capacity across Cochliobolus pathogens - Condon_2013_PLoS.Genet_9_e1003233
Author(s) : Condon BJ , Leng Y , Wu D , Bushley KE , Ohm RA , Otillar R , Martin J , Schackwitz W , Grimwood J , MohdZainudin N , Xue C , Wang R , Manning VA , Dhillon B , Tu ZJ , Steffenson BJ , Salamov A , Sun H , Lowry S , LaButti K , Han J , Copeland A , Lindquist E , Barry K , Schmutz J , Baker SE , Ciuffetti LM , Grigoriev IV , Zhong S , Turgeon BG
Ref : PLoS Genet , 9 :e1003233 , 2013
Abstract :

The genomes of five Cochliobolus heterostrophus strains, two Cochliobolus sativus strains, three additional Cochliobolus species (Cochliobolus victoriae, Cochliobolus carbonum, Cochliobolus miyabeanus), and closely related Setosphaeria turcica were sequenced at the Joint Genome Institute (JGI). The datasets were used to identify SNPs between strains and species, unique genomic regions, core secondary metabolism genes, and small secreted protein (SSP) candidate effector encoding genes with a view towards pinpointing structural elements and gene content associated with specificity of these closely related fungi to different cereal hosts. Whole-genome alignment shows that three to five percent of each genome differs between strains of the same species, while a quarter of each genome differs between species. On average, SNP counts among field isolates of the same C. heterostrophus species are more than 25x higher than those between inbred lines and 50x lower than SNPs between Cochliobolus species. The suites of nonribosomal peptide synthetase (NRPS), polyketide synthase (PKS), and SSP-encoding genes are astoundingly diverse among species but remarkably conserved among isolates of the same species, whether inbred or field strains, except for defining examples that map to unique genomic regions. Functional analysis of several strain-unique PKSs and NRPSs reveal a strong correlation with a role in virulence.

PubMedSearch : Condon_2013_PLoS.Genet_9_e1003233
PubMedID: 23357949
Gene_locus related to this paper: cocsn-m2rnc6 , coch5-m2tnl8 , coch4-n4xap8 , sett2-r0j560 , cocsn-m2thl9 , coch5-m2v1s2 , coch4-n4xzy1 , cocsn-m2sqr3 , cocsn-m2rnk8 , coch4-n4xdv7 , coch5-m2uds0 , coch5-m2um94 , sett2-r0i8c5 , coch4-n4wlc8 , coch4-n4x9p3 , cocsn-m2rh47 , cocsn-m2qz08 , sett2-r0jqq6 , sett2-r0imb6 , coch4-n4x7u3 , cocsn-m2rv02 , cocsn-m2sy95 , coch5-m2ubd5 , cocsn-m2t3d2 , sett2-r0kl84 , sett2-r0jts7 , coch4-n4x2h3 , sett2-r0jxt9 , coch4-n4x7r9 , cocsn-m2sh75 , cocsn-m2t5z2 , coch5-m2ucf6 , sett2-r0k664 , cocsn-m2t3q1 , sett2-r0k4b4 , cocsn-m2t4i1 , coch5-m2th93 , cocsn-m2svm8 , cocsn-m2s6q4 , cocsn-m2s5h5 , coch4-n4xf94 , sett2-r0kdl8 , cocsn-m2qvi9 , sett2-r0kfg6 , cocsn-m2szq4 , sett2-r0j437 , coch4-n4x7j4 , coch5-m2twk3 , coch5-m2usf2 , sett2-r0kjt7 , sett2-r0k7y2 , cocsn-m2th03 , sett2-r0iy92 , sett2-r0kbr9 , sett2-r0k997 , coch5-m2sik6 , sett2-r0jzj5 , cocsn-m2r0j6 , coch4-n4x6a4 , cocsn-m2s7a5 , cocsn-m2sv79 , sett2-r0knx4 , sett2-r0ksh8 , sett2-r0ip86 , cocmi-w6yyy3 , cocsn-m2sqe4 , coch4-n4xzc8 , cocvi-w7eyp1 , cocmi-w6zf65 , cocvi-w7er28 , cocca-w6yw25 , cocvi-w7e2g6 , cocmi-w6z7k5 , cocca-w6ys73 , cocca-w6ydq2 , cocca-w6y7i5 , cocmi-w6yyr0 , cocca-w6yh47 , cocmi-w6zju4 , cocca-w6ynq5 , cocmi-w6zm44 , cocca-w6xx85 , cocmi-w6z011 , cocca-w6yre4 , cocmi-w6z9l3 , cocca-w6yfp7 , cocmi-w6zlc2 , cocca-w6yar2 , cocmi-w6yjr7 , cocca-w6yhs1 , cocca-w6xux8 , cocmi-w6z9s8 , cocca-w6yq27 , cocmi-w6zqk9 , cocca-w6xq19 , cocca-w6y1r6 , cocca-w6ygj2 , cocmi-w6zgn4 , cocca-w6ybh2 , cocmi-w6z710 , cocca-w6yk86 , cocmi-w6zjz2 , cocmi-w6z7f2 , cocca-w6xn57 , cocca-w6ybq4 , cocmi-w6yxn5 , cocmi-w6zf08 , cocsn-m2rtg8 , cocmi-w6zuj7 , cocca-w6xtb2 , cocca-w6yk97 , coch5-m2t2x3 , cocmi-w6z646 , cocsn-m2sze4 , sett2-r0kjg6 , cocmi-w6yrn5 , sett2-r0k5q0 , cocvi-w7ezb7 , sett2-r0jtm1 , cocmi-w6ywa1 , cocsn-m2t3e8 , coch5-m2ulw5 , coch5-m2urw9 , sett2-r0knn5 , cocmi-w6ysb2 , cocvi-w7eag7 , cocca-w6y1v2 , sett2-r0i9k2 , coch5-m2uul8 , cocsn-m2sl21

Related information

Gene_locus cocsn-m2rnc6    coch5-m2tnl8    coch4-n4xap8    sett2-r0j560    cocsn-m2thl9    coch5-m2v1s2    coch4-n4xzy1    cocsn-m2sqr3    cocsn-m2rnk8    coch4-n4xdv7    coch5-m2uds0    coch5-m2um94    sett2-r0i8c5    coch4-n4wlc8    coch4-n4x9p3    cocsn-m2rh47    cocsn-m2qz08    sett2-r0jqq6    sett2-r0imb6    coch4-n4x7u3    cocsn-m2rv02    cocsn-m2sy95    coch5-m2ubd5    cocsn-m2t3d2    sett2-r0kl84    sett2-r0jts7    coch4-n4x2h3    sett2-r0jxt9    coch4-n4x7r9    cocsn-m2sh75    cocsn-m2t5z2    coch5-m2ucf6    sett2-r0k664    cocsn-m2t3q1    sett2-r0k4b4    cocsn-m2t4i1    coch5-m2th93    cocsn-m2svm8    cocsn-m2s6q4    cocsn-m2s5h5    coch4-n4xf94    sett2-r0kdl8    cocsn-m2qvi9    sett2-r0kfg6    cocsn-m2szq4    sett2-r0j437    coch4-n4x7j4    coch5-m2twk3    coch5-m2usf2    sett2-r0kjt7    sett2-r0k7y2    cocsn-m2th03    sett2-r0iy92    sett2-r0kbr9    sett2-r0k997    coch5-m2sik6    sett2-r0jzj5    cocsn-m2r0j6    coch4-n4x6a4    cocsn-m2s7a5    cocsn-m2sv79    sett2-r0knx4    sett2-r0ksh8    sett2-r0ip86    cocmi-w6yyy3    cocsn-m2sqe4    coch4-n4xzc8    cocvi-w7eyp1    cocmi-w6zf65    cocvi-w7er28    cocca-w6yw25    cocvi-w7e2g6    cocmi-w6z7k5    cocca-w6ys73    cocca-w6ydq2    cocca-w6y7i5    cocmi-w6yyr0    cocca-w6yh47    cocmi-w6zju4    cocca-w6ynq5    cocmi-w6zm44    cocca-w6xx85    cocmi-w6z011    cocca-w6yre4    cocmi-w6z9l3    cocca-w6yfp7    cocmi-w6zlc2    cocca-w6yar2    cocmi-w6yjr7    cocca-w6yhs1    cocca-w6xux8    cocmi-w6z9s8    cocca-w6yq27    cocmi-w6zqk9    cocca-w6xq19    cocca-w6y1r6    cocca-w6ygj2    cocmi-w6zgn4    cocca-w6ybh2    cocmi-w6z710    cocca-w6yk86    cocmi-w6zjz2    cocmi-w6z7f2    cocca-w6xn57    cocca-w6ybq4    cocmi-w6yxn5    cocmi-w6zf08    cocsn-m2rtg8    cocmi-w6zuj7    cocca-w6xtb2    cocca-w6yk97    coch5-m2t2x3    cocmi-w6z646    cocsn-m2sze4    sett2-r0kjg6    cocmi-w6yrn5    sett2-r0k5q0    cocvi-w7ezb7    sett2-r0jtm1    cocmi-w6ywa1    cocsn-m2t3e8    coch5-m2ulw5    coch5-m2urw9    sett2-r0knn5    cocmi-w6ysb2    cocvi-w7eag7    cocca-w6y1v2    sett2-r0i9k2    coch5-m2uul8    cocsn-m2sl21
Gene_locus_frgt coch4-n4wt88    coch4-n4wrh9    coch5-m2tw97    coch5-m2sl02    cocsn-m2thq9    sett2-r0kt08    cocsn-m2qvj3    coch5-m2uw21    cocsn-m2rt01    cocsn-m2t778    coch4-n4wni5    cocsn-m2qy12    coch4-n4xas1    coch5-m2sti1    cocvi-w7eq34

Citations formats

Condon BJ, Leng Y, Wu D, Bushley KE, Ohm RA, Otillar R, Martin J, Schackwitz W, Grimwood J, MohdZainudin N, Xue C, Wang R, Manning VA, Dhillon B, Tu ZJ, Steffenson BJ, Salamov A, Sun H, Lowry S, LaButti K, Han J, Copeland A, Lindquist E, Barry K, Schmutz J, Baker SE, Ciuffetti LM, Grigoriev IV, Zhong S, Turgeon BG (2013)
Comparative genome structure, secondary metabolite, and effector coding capacity across Cochliobolus pathogens
PLoS Genet 9 :e1003233

Condon BJ, Leng Y, Wu D, Bushley KE, Ohm RA, Otillar R, Martin J, Schackwitz W, Grimwood J, MohdZainudin N, Xue C, Wang R, Manning VA, Dhillon B, Tu ZJ, Steffenson BJ, Salamov A, Sun H, Lowry S, LaButti K, Han J, Copeland A, Lindquist E, Barry K, Schmutz J, Baker SE, Ciuffetti LM, Grigoriev IV, Zhong S, Turgeon BG (2013)
PLoS Genet 9 :e1003233