TY - JOUR
T1 - Comparative genomics of the social amoebae Dictyostelium discoideum and Dictyostelium purpureum
AU - Sucgang, Richard
AU - Kuo, Alan
AU - Tian, Xiangjun
AU - Salerno, William
AU - Parikh, Anup
AU - Feasley, Christa L.
AU - Dalin, Eileen
AU - Tu, Hank
AU - Huang, Eryong
AU - Barry, Kerrie
AU - Lindquist, Erika
AU - Shapiro, Harris
AU - Bruce, David
AU - Schmutz, Jeremy
AU - Salamov, Asaf
AU - Fey, Petra
AU - Gaudet, Pascale
AU - Anjard, Christophe
AU - Babu, M. Madan
AU - Basu, Siddhartha
AU - Bushmanova, Yulia
AU - van der Wel, Hanke
AU - Katoh-Kurasawa, Mariko
AU - Dinh, Christopher
AU - Coutinho, Pedro M.
AU - Saito, Tamao
AU - Elias, Marek
AU - Schaap, Pauline
AU - Kay, Robert R.
AU - Henrissat, Bernard
AU - Eichinger, Ludwig
AU - Rivero, Francisco
AU - Putnam, Nicholas H.
AU - West, Christopher M.
AU - Loomis, William F.
AU - Chisholm, Rex L.
AU - Shaulsky, Gad
AU - Strassmann, Joan E.
AU - Queller, David C.
AU - Kuspa, Adam
AU - Grigoriev, Igor V.
N1 - Funding Information:
This work was performed under the auspices of the US Department of Energy’s Office of Science, Biological and Environmental Research Program and the University of California, Lawrence Berkeley National Laboratory under contract No. DE-AC02-05CH11231, Lawrence Livermore National Laboratory under Contract No. DE-AC52-07NA27344, Los Alamos National Laboratory under contract No. DE-AC02-06NA25396. The annotation effort was supported by grants HD39691 (A Kuspa, GS, and RS), GM64426 (RLC), HG0022 (RLC) and GM84383 (CMW) from the National Institute of Health, and by grants EF-0626963 and DEB-0918931 (JES and DCQ) from the National Science Foundation. AP was supported by a fellowship from the Keck Center for Interdisciplinary Bioscience Training of the Gulf Coast Consortia (NIH Grants 1 T90 DA022885 and 1 R90 DA023418).
PY - 2011/2/28
Y1 - 2011/2/28
N2 - Background: The social amoebae (Dictyostelia) are a diverse group of Amoebozoa that achieve multicellularity by aggregation and undergo morphogenesis into fruiting bodies with terminally differentiated spores and stalk cells. There are four groups of dictyostelids, with the most derived being a group that contains the model species Dictyostelium discoideum.Results: We have produced a draft genome sequence of another group dictyostelid, Dictyostelium purpureum, and compare it to the D. discoideum genome. The assembly (8.41 × coverage) comprises 799 scaffolds totaling 33.0 Mb, comparable to the D. discoideum genome size. Sequence comparisons suggest that these two dictyostelids shared a common ancestor approximately 400 million years ago. In spite of this divergence, most orthologs reside in small clusters of conserved synteny. Comparative analyses revealed a core set of orthologous genes that illuminate dictyostelid physiology, as well as differences in gene family content. Interesting patterns of gene conservation and divergence are also evident, suggesting function differences; some protein families, such as the histidine kinases, have undergone little functional change, whereas others, such as the polyketide synthases, have undergone extensive diversification. The abundant amino acid homopolymers encoded in both genomes are generally not found in homologous positions within proteins, so they are unlikely to derive from ancestral DNA triplet repeats. Genes involved in the social stage evolved more rapidly than others, consistent with either relaxed selection or accelerated evolution due to social conflict.Conclusions: The findings from this new genome sequence and comparative analysis shed light on the biology and evolution of the Dictyostelia.
AB - Background: The social amoebae (Dictyostelia) are a diverse group of Amoebozoa that achieve multicellularity by aggregation and undergo morphogenesis into fruiting bodies with terminally differentiated spores and stalk cells. There are four groups of dictyostelids, with the most derived being a group that contains the model species Dictyostelium discoideum.Results: We have produced a draft genome sequence of another group dictyostelid, Dictyostelium purpureum, and compare it to the D. discoideum genome. The assembly (8.41 × coverage) comprises 799 scaffolds totaling 33.0 Mb, comparable to the D. discoideum genome size. Sequence comparisons suggest that these two dictyostelids shared a common ancestor approximately 400 million years ago. In spite of this divergence, most orthologs reside in small clusters of conserved synteny. Comparative analyses revealed a core set of orthologous genes that illuminate dictyostelid physiology, as well as differences in gene family content. Interesting patterns of gene conservation and divergence are also evident, suggesting function differences; some protein families, such as the histidine kinases, have undergone little functional change, whereas others, such as the polyketide synthases, have undergone extensive diversification. The abundant amino acid homopolymers encoded in both genomes are generally not found in homologous positions within proteins, so they are unlikely to derive from ancestral DNA triplet repeats. Genes involved in the social stage evolved more rapidly than others, consistent with either relaxed selection or accelerated evolution due to social conflict.Conclusions: The findings from this new genome sequence and comparative analysis shed light on the biology and evolution of the Dictyostelia.
UR - https://www.scopus.com/pages/publications/79952057869
U2 - 10.1186/gb-2011-12-2-r20
DO - 10.1186/gb-2011-12-2-r20
M3 - Article
C2 - 21356102
AN - SCOPUS:79952057869
SN - 1474-7596
VL - 12
JO - Genome biology
JF - Genome biology
IS - 2
M1 - R20
ER -