Kirkpatrick R

References (3)

Title : Analysis of 4,664 high-quality sequence-finished poplar full-length cDNA clones and their utility for the discovery of genes responding to insect feeding - Ralph_2008_BMC.Genomics_9_57
Author(s) : Ralph SG , Chun HJ , Cooper D , Kirkpatrick R , Kolosova N , Gunter L , Tuskan GA , Douglas CJ , Holt RA , Jones SJ , Marra MA , Bohlmann J
Ref : BMC Genomics , 9 :57 , 2008
Abstract : BACKGROUND: The genus Populus includes poplars, aspens and cottonwoods, which will be collectively referred to as poplars hereafter unless otherwise specified. Poplars are the dominant tree species in many forest ecosystems in the Northern Hemisphere and are of substantial economic value in plantation forestry. Poplar has been established as a model system for genomics studies of growth, development, and adaptation of woody perennial plants including secondary xylem formation, dormancy, adaptation to local environments, and biotic interactions. RESULTS: As part of the poplar genome sequencing project and the development of genomic resources for poplar, we have generated a full-length (FL)-cDNA collection using the biotinylated CAP trapper method. We constructed four FLcDNA libraries using RNA from xylem, phloem and cambium, and green shoot tips and leaves from the P. trichocarpa Nisqually-1 genotype, as well as insect-attacked leaves of the P. trichocarpa x P. deltoides hybrid. Following careful selection of candidate cDNA clones, we used a combined strategy of paired end reads and primer walking to generate a set of 4,664 high-accuracy, sequence-verified FLcDNAs, which clustered into 3,990 putative unique genes. Mapping FLcDNAs to the poplar genome sequence combined with BLAST comparisons to previously predicted protein coding sequences in the poplar genome identified 39 FLcDNAs that likely localize to gaps in the current genome sequence assembly. Another 173 FLcDNAs mapped to the genome sequence but were not included among the previously predicted genes in the poplar genome. Comparative sequence analysis against Arabidopsis thaliana and other species in the non-redundant database of GenBank revealed that 11.5% of the poplar FLcDNAs display no significant sequence similarity to other plant proteins. By mapping the poplar FLcDNAs against transcriptome data previously obtained with a 15.5 K cDNA microarray, we identified 153 FLcDNA clones for genes that were differentially expressed in poplar leaves attacked by forest tent caterpillars. CONCLUSION: This study has generated a high-quality FLcDNA resource for poplar and the third largest FLcDNA collection published to date for any plant species. We successfully used the FLcDNA sequences to reassess gene prediction in the poplar genome sequence, perform comparative sequence annotation, and identify differentially expressed transcripts associated with defense against insects. The FLcDNA sequences will be essential to the ongoing curation and annotation of the poplar genome, in particular for targeting gaps in the current genome assembly and further improvement of gene predictions. The physical FLcDNA clones will serve as useful reagents for functional genomics research in areas such as analysis of gene functions in defense against insects and perennial growth. Sequences from this study have been deposited in NCBI GenBank under the accession numbers EF144175 to EF148838.
ESTHER : Ralph_2008_BMC.Genomics_9_57
PubMedSearch : Ralph_2008_BMC.Genomics_9_57
PubMedID: 18230180
Gene_locus related to this paper: poptr-a9pbm5 , poptr-a9pfp5 , poptr-a9pgl0 , poptr-a9ph43 , poptr-a9ph71 , poptr-a9pha7 , poptr-b9gnp9 , poptr-b9gyq1 , poptr-b9hxr7 , poptr-b9i9p8 , poptr-a9pfa7 , poptr-a9pch4 , poptr-a9pfg4

Title : A conifer genomics resource of 200,000 spruce (Picea spp.) ESTs and 6,464 high-quality, sequence-finished full-length cDNAs for Sitka spruce (Picea sitchensis) - Ralph_2008_BMC.Genomics_9_484
Author(s) : Ralph SG , Chun HJ , Kolosova N , Cooper D , Oddy C , Ritland CE , Kirkpatrick R , Moore R , Barber S , Holt RA , Jones SJ , Marra MA , Douglas CJ , Ritland K , Bohlmann J
Ref : BMC Genomics , 9 :484 , 2008
Abstract : BACKGROUND: Members of the pine family (Pinaceae), especially species of spruce (Picea spp.) and pine (Pinus spp.), dominate many of the world's temperate and boreal forests. These conifer forests are of critical importance for global ecosystem stability and biodiversity. They also provide the majority of the world's wood and fiber supply and serve as a renewable resource for other industrial biomaterials. In contrast to angiosperms, functional and comparative genomics research on conifers, or other gymnosperms, is limited by the lack of a relevant reference genome sequence. Sequence-finished full-length (FL)cDNAs and large collections of expressed sequence tags (ESTs) are essential for gene discovery, functional genomics, and for future efforts of conifer genome annotation. RESULTS: As part of a conifer genomics program to characterize defense against insects and adaptation to local environments, and to discover genes for the production of biomaterials, we developed 20 standard, normalized or full-length enriched cDNA libraries from Sitka spruce (P. sitchensis), white spruce (P. glauca), and interior spruce (P. glauca-engelmannii complex). We sequenced and analyzed 206,875 3'- or 5'-end ESTs from these libraries, and developed a resource of 6,464 high-quality sequence-finished FLcDNAs from Sitka spruce. Clustering and assembly of 147,146 3'-end ESTs resulted in 19,941 contigs and 26,804 singletons, representing 46,745 putative unique transcripts (PUTs). The 6,464 FLcDNAs were all obtained from a single Sitka spruce genotype and represent 5,718 PUTs. CONCLUSION: This paper provides detailed annotation and quality assessment of a large EST and FLcDNA resource for spruce. The 6,464 Sitka spruce FLcDNAs represent the third largest sequence-verified FLcDNA resource for any plant species, behind only rice (Oryza sativa) and Arabidopsis (Arabidopsis thaliana), and the only substantial FLcDNA resource for a gymnosperm. Our emphasis on capturing FLcDNAs and ESTs from cDNA libraries representing herbivore-, wound- or elicitor-treated induced spruce tissues, along with incorporating normalization to capture rare transcripts, resulted in a rich resource for functional genomics and proteomics studies. Sequence comparisons against five plant genomes and the non-redundant GenBank protein database revealed that a substantial number of spruce transcripts have no obvious similarity to known angiosperm gene sequences. Opportunities for future applications of the sequence and clone resources for comparative and functional genomics are discussed.
ESTHER : Ralph_2008_BMC.Genomics_9_484
PubMedSearch : Ralph_2008_BMC.Genomics_9_484
PubMedID: 18854048
Gene_locus related to this paper: picgl-emb8 , picsi-a9nkq4 , picsi-a9nkw1 , picsi-a9nln3 , picsi-a9nlt8 , picsi-a9nng6 , picsi-a9np75 , picsi-a9np95 , picsi-a9nqw9 , picsi-a9nsc2 , picsi-a9nsf2 , picsi-a9nux2 , picsi-a9nvj5 , picsi-a9nvl0 , picsi-a9nwa5 , picsi-a9nws5 , picsi-a9nwz2 , picsi-a9nyx6 , picsi-a9nzz3 , picsi-a9p0a1 , picsi-a9p0c3 , picsi-a9p1m0 , picsi-a9p066 , picsi-a9p157 , picsi-a9nu19

Title : The genome of black cottonwood, Populus trichocarpa (Torr. &\; Gray) - Tuskan_2006_Science_313_1596
Author(s) : Tuskan GA , Difazio S , Jansson S , Bohlmann J , Grigoriev I , Hellsten U , Putnam N , Ralph S , Rombauts S , Salamov A , Schein J , Sterck L , Aerts A , Bhalerao RR , Bhalerao RP , Blaudez D , Boerjan W , Brun A , Brunner A , Busov V , Campbell M , Carlson J , Chalot M , Chapman J , Chen GL , Cooper D , Coutinho PM , Couturier J , Covert S , Cronk Q , Cunningham R , Davis J , Degroeve S , Dejardin A , dePamphilis C , Detter J , Dirks B , Dubchak I , Duplessis S , Ehlting J , Ellis B , Gendler K , Goodstein D , Gribskov M , Grimwood J , Groover A , Gunter L , Hamberger B , Heinze B , Helariutta Y , Henrissat B , Holligan D , Holt R , Huang W , Islam-Faridi N , Jones S , Jones-Rhoades M , Jorgensen R , Joshi C , Kangasjarvi J , Karlsson J , Kelleher C , Kirkpatrick R , Kirst M , Kohler A , Kalluri U , Larimer F , Leebens-Mack J , Leple JC , Locascio P , Lou Y , Lucas S , Martin F , Montanini B , Napoli C , Nelson DR , Nelson C , Nieminen K , Nilsson O , Pereda V , Peter G , Philippe R , Pilate G , Poliakov A , Razumovskaya J , Richardson P , Rinaldi C , Ritland K , Rouze P , Ryaboy D , Schmutz J , Schrader J , Segerman B , Shin H , Siddiqui A , Sterky F , Terry A , Tsai CJ , Uberbacher E , Unneberg P , Vahala J , Wall K , Wessler S , Yang G , Yin T , Douglas C , Marra M , Sandberg G , Van de Peer Y , Rokhsar D
Ref : Science , 313 :1596 , 2006
Abstract : We report the draft genome of the black cottonwood tree, Populus trichocarpa. Integration of shotgun sequence assembly with genetic mapping enabled chromosome-scale reconstruction of the genome. More than 45,000 putative protein-coding genes were identified. Analysis of the assembled genome revealed a whole-genome duplication event; about 8000 pairs of duplicated genes from that event survived in the Populus genome. A second, older duplication event is indistinguishably coincident with the divergence of the Populus and Arabidopsis lineages. Nucleotide substitution, tandem gene duplication, and gross chromosomal rearrangement appear to proceed substantially more slowly in Populus than in Arabidopsis. Populus has more protein-coding genes than Arabidopsis, ranging on average from 1.4 to 1.6 putative Populus homologs for each Arabidopsis gene. However, the relative frequency of protein domains in the two genomes is similar. Overrepresented exceptions in Populus include genes associated with lignocellulosic wall biosynthesis, meristem development, disease resistance, and metabolite transport.
ESTHER : Tuskan_2006_Science_313_1596
PubMedSearch : Tuskan_2006_Science_313_1596
PubMedID: 16973872
Gene_locus related to this paper: burvg-a4jw31 , delas-a9c1v9 , poptr-a9pfp5 , poptr-a9ph43 , poptr-a9ph71 , poptr-a9pha7 , poptr-b9giq0 , poptr-b9gjs0 , poptr-b9gl72 , poptr-b9gmx8 , poptr-b9gnp9 , poptr-b9gny4 , poptr-b9grg2 , poptr-b9gsc2 , poptr-b9gvp3 , poptr-b9gvs3 , poptr-b9gwn9 , poptr-b9gy32 , poptr-b9gyq1 , poptr-b9gys8 , poptr-b9h0h0 , poptr-b9h4j2 , poptr-b9h6c2 , poptr-b9h6c5 , poptr-b9h6l8 , poptr-b9h8c9 , poptr-b9h301 , poptr-b9h579 , poptr-b9hbl2 , poptr-b9hbw5 , poptr-b9hcn9 , poptr-b9hee0 , poptr-b9hee2 , poptr-b9hee5 , poptr-b9hee6 , poptr-b9hef3 , poptr-b9hfa7 , poptr-b9hfd3 , poptr-b9hfi6 , poptr-b9hft8 , poptr-b9hg83 , poptr-b9hif5 , poptr-b9hll5 , poptr-b9hmd0 , poptr-b9hnv3 , poptr-b9hqr6 , poptr-b9hqr7 , poptr-b9hrv7 , poptr-b9hs66 , poptr-b9huf0 , poptr-b9hur3 , poptr-b9hux1 , poptr-b9hwp2 , poptr-b9hxr7 , poptr-b9hyk8 , poptr-b9hyx2 , poptr-b9i2q8 , poptr-b9i5b8 , poptr-b9i5j8 , poptr-b9i5j9 , poptr-b9i5k0 , poptr-b9i6b6 , poptr-b9i7b7 , poptr-b9i9p8 , poptr-b9i484 , poptr-b9i994 , poptr-b9ial3 , poptr-b9ial4 , poptr-b9ib28 , poptr-b9ibr8 , poptr-b9id97 , poptr-b9idr4 , poptr-b9iid9 , poptr-b9iip0 , poptr-b9ik80 , poptr-b9ik90 , poptr-b9il63 , poptr-b9ink7 , poptr-b9iqa0 , poptr-b9iqd5 , poptr-b9mwf1 , poptr-b9mwi8 , poptr-b9n0c6 , poptr-b9n0n1 , poptr-b9n0n4 , poptr-b9n0z5 , poptr-b9n1t8 , poptr-b9n1z3 , poptr-b9n3m7 , poptr-b9n233 , poptr-b9n236 , poptr-b9n395 , poptr-b9nd33 , poptr-b9nd34 , poptr-b9ndi6 , poptr-b9ndj5 , poptr-b9p9i8 , poptr-a9pfa7 , poptr-b9hdp2 , poptr-b9inj0 , poptr-b9n5g7 , poptr-b9i8q4 , poptr-u5g0r4 , poptr-u5gf59 , poptr-u7e1l9 , poptr-b9hj61 , poptr-b9hwd0 , poptr-u5fz17 , poptr-a0a2k2brq1 , poptr-a0a2k2b9i6 , poptr-a0a2k1x9y8 , poptr-a9pch4 , poptr-a0a2k1wwt1 , poptr-a0a2k1wv10 , poptr-a0a2k2a850 , poptr-a0a2k2asj6 , poptr-a0a2k1x6k1 , poptr-u5fv96 , poptr-a0a2k2blg2 , poptr-a0a2k1xpi3 , poptr-a0a2k1xpj0 , poptr-a0a2k2b331 , poptr-a0a2k2byl7 , poptr-b9iek5 , poptr-a9pfg4 , poptr-a0a2k1xzs5 , poptr-b9gga9 , poptr-b9guw6 , poptr-b9hff2