Generation, annotation, analysis and database integration of 16,500 white spruce EST clusters.
Identifieur interne : 004033 ( Main/Exploration ); précédent : 004032; suivant : 004034Generation, annotation, analysis and database integration of 16,500 white spruce EST clusters.
Auteurs : Nathalie Pavy [Canada] ; Charles Paule ; Lee Parsons ; John A. Crow ; Marie-Josee Morency ; Janice Cooke ; James E. Johnson ; Etienne Noumen ; Carine Guillet-Claude ; Yaron Butterfield ; Sarah Barber ; George Yang ; Jerry Liu ; Jeff Stott ; Robert Kirkpatrick ; Asim Siddiqui ; Robert Holt ; Marco Marra ; Armand Seguin ; Ernest Retzel ; Jean Bousquet (allergologue) [France] ; John MackaySource :
- BMC genomics [ 1471-2164 ] ; 2005.
Descripteurs français
- KwdFr :
- ADN complémentaire (métabolisme), ARN messager (métabolisme), Analyse de regroupements (MeSH), Arabidopsis (génétique), Banque de gènes (MeSH), Bases de données comme sujet (MeSH), Bases de données génétiques (MeSH), Cartographie de contigs (MeSH), Cytosquelette (métabolisme), Famille multigénique (MeSH), Gènes de plante (MeSH), Génome végétal (MeSH), Génomique (MeSH), Logiciel (MeSH), Oryza (génétique), Paroi cellulaire (métabolisme), Picea (génétique), Régulation de l'expression des gènes végétaux (MeSH), Étiquettes de séquences exprimées (MeSH).
- MESH :
- génétique : Arabidopsis, Oryza, Picea.
- métabolisme : ADN complémentaire, ARN messager, Cytosquelette, Paroi cellulaire.
- Analyse de regroupements, Banque de gènes, Bases de données comme sujet, Bases de données génétiques, Cartographie de contigs, Famille multigénique, Gènes de plante, Génome végétal, Génomique, Logiciel, Régulation de l'expression des gènes végétaux, Étiquettes de séquences exprimées.
English descriptors
- KwdEn :
- Arabidopsis (genetics), Cell Wall (metabolism), Cluster Analysis (MeSH), Contig Mapping (MeSH), Cytoskeleton (metabolism), DNA, Complementary (metabolism), Databases as Topic (MeSH), Databases, Genetic (MeSH), Expressed Sequence Tags (MeSH), Gene Expression Regulation, Plant (MeSH), Gene Library (MeSH), Genes, Plant (MeSH), Genome, Plant (MeSH), Genomics (MeSH), Multigene Family (MeSH), Oryza (genetics), Picea (genetics), RNA, Messenger (metabolism), Software (MeSH).
- MESH :
- chemical , metabolism : DNA, Complementary, RNA, Messenger.
- genetics : Arabidopsis, Oryza, Picea.
- metabolism : Cell Wall, Cytoskeleton.
- Cluster Analysis, Contig Mapping, Databases as Topic, Databases, Genetic, Expressed Sequence Tags, Gene Expression Regulation, Plant, Gene Library, Genes, Plant, Genome, Plant, Genomics, Multigene Family, Software.
Abstract
BACKGROUND
The sequencing and analysis of ESTs is for now the only practical approach for large-scale gene discovery and annotation in conifers because their very large genomes are unlikely to be sequenced in the near future. Our objective was to produce extensive collections of ESTs and cDNA clones to support manufacture of cDNA microarrays and gene discovery in white spruce (Picea glauca [Moench] Voss).
RESULTS
We produced 16 cDNA libraries from different tissues and a variety of treatments, and partially sequenced 50,000 cDNA clones. High quality 3' and 5' reads were assembled into 16,578 consensus sequences, 45% of which represented full length inserts. Consensus sequences derived from 5' and 3' reads of the same cDNA clone were linked to define 14,471 transcripts. A large proportion (84%) of the spruce sequences matched a pine sequence, but only 68% of the spruce transcripts had homologs in Arabidopsis or rice. Nearly all the sequences that matched the Populus trichocarpa genome (the only sequenced tree genome) also matched rice or Arabidopsis genomes. We used several sequence similarity search approaches for assignment of putative functions, including blast searches against general and specialized databases (transcription factors, cell wall related proteins), Gene Ontology term assignation and Hidden Markov Model searches against PFAM protein families and domains. In total, 70% of the spruce transcripts displayed matches to proteins of known or unknown function in the Uniref100 database (blastx e-value < 1e-10). We identified multigenic families that appeared larger in spruce than in the Arabidopsis or rice genomes. Detailed analysis of translationally controlled tumour proteins and S-adenosylmethionine synthetase families confirmed a twofold size difference. Sequences and annotations were organized in a dedicated database, SpruceDB. Several search tools were developed to mine the data either based on their occurrence in the cDNA libraries or on functional annotations.
CONCLUSION
This report illustrates specific approaches for large-scale gene discovery and annotation in an organism that is very distantly related to any of the fully sequenced genomes. The ArboreaSet sequences and cDNA clones represent a valuable resource for investigations ranging from plant comparative genomics to applied conifer genetics.
DOI: 10.1186/1471-2164-6-144
PubMed: 16236172
PubMed Central: PMC1277824
Affiliations:
- Canada, France
- Languedoc-Roussillon, Occitanie (région administrative), Québec
- Montpellier, Québec (ville)
- Centre hospitalier universitaire de Montpellier, Université Laval, Université de Montpellier
Links toward previous steps (curation, corpus...)
Le document en format XML
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Crow</name></author><author><name sortKey="Morency, Marie Josee" sort="Morency, Marie Josee" uniqKey="Morency M" first="Marie-Josee" last="Morency">Marie-Josee Morency</name></author><author><name sortKey="Cooke, Janice" sort="Cooke, Janice" uniqKey="Cooke J" first="Janice" last="Cooke">Janice Cooke</name></author><author><name sortKey="Johnson, James E" sort="Johnson, James E" uniqKey="Johnson J" first="James E" last="Johnson">James E. Johnson</name></author><author><name sortKey="Noumen, Etienne" sort="Noumen, Etienne" uniqKey="Noumen E" first="Etienne" last="Noumen">Etienne Noumen</name></author><author><name sortKey="Guillet Claude, Carine" sort="Guillet Claude, Carine" uniqKey="Guillet Claude C" first="Carine" last="Guillet-Claude">Carine Guillet-Claude</name></author><author><name sortKey="Butterfield, Yaron" sort="Butterfield, Yaron" uniqKey="Butterfield Y" first="Yaron" last="Butterfield">Yaron Butterfield</name></author><author><name sortKey="Barber, Sarah" sort="Barber, Sarah" uniqKey="Barber S" first="Sarah" last="Barber">Sarah Barber</name></author><author><name sortKey="Yang, George" sort="Yang, George" uniqKey="Yang G" first="George" last="Yang">George Yang</name></author><author><name sortKey="Liu, Jerry" sort="Liu, Jerry" uniqKey="Liu J" first="Jerry" last="Liu">Jerry Liu</name></author><author><name sortKey="Stott, Jeff" sort="Stott, Jeff" uniqKey="Stott J" first="Jeff" last="Stott">Jeff 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(metabolism)</term><term>DNA, Complementary (metabolism)</term><term>Databases as Topic (MeSH)</term><term>Databases, Genetic (MeSH)</term><term>Expressed Sequence Tags (MeSH)</term><term>Gene Expression Regulation, Plant (MeSH)</term><term>Gene Library (MeSH)</term><term>Genes, Plant (MeSH)</term><term>Genome, Plant (MeSH)</term><term>Genomics (MeSH)</term><term>Multigene Family (MeSH)</term><term>Oryza (genetics)</term><term>Picea (genetics)</term><term>RNA, Messenger (metabolism)</term><term>Software (MeSH)</term></keywords><keywords scheme="KwdFr" xml:lang="fr"><term>ADN complémentaire (métabolisme)</term><term>ARN messager (métabolisme)</term><term>Analyse de regroupements (MeSH)</term><term>Arabidopsis (génétique)</term><term>Banque de gènes (MeSH)</term><term>Bases de données comme sujet (MeSH)</term><term>Bases de données génétiques (MeSH)</term><term>Cartographie de contigs (MeSH)</term><term>Cytosquelette (métabolisme)</term><term>Famille multigénique (MeSH)</term><term>Gènes 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type="abstract" xml:lang="en"><p><b>BACKGROUND</b></p><p>The sequencing and analysis of ESTs is for now the only practical approach for large-scale gene discovery and annotation in conifers because their very large genomes are unlikely to be sequenced in the near future. Our objective was to produce extensive collections of ESTs and cDNA clones to support manufacture of cDNA microarrays and gene discovery in white spruce (Picea glauca [Moench] Voss).</p></div><div type="abstract" xml:lang="en"><p><b>RESULTS</b></p><p>We produced 16 cDNA libraries from different tissues and a variety of treatments, and partially sequenced 50,000 cDNA clones. High quality 3' and 5' reads were assembled into 16,578 consensus sequences, 45% of which represented full length inserts. Consensus sequences derived from 5' and 3' reads of the same cDNA clone were linked to define 14,471 transcripts. A large proportion (84%) of the spruce sequences matched a pine sequence, but only 68% of the spruce transcripts had homologs in Arabidopsis or rice. Nearly all the sequences that matched the Populus trichocarpa genome (the only sequenced tree genome) also matched rice or Arabidopsis genomes. We used several sequence similarity search approaches for assignment of putative functions, including blast searches against general and specialized databases (transcription factors, cell wall related proteins), Gene Ontology term assignation and Hidden Markov Model searches against PFAM protein families and domains. In total, 70% of the spruce transcripts displayed matches to proteins of known or unknown function in the Uniref100 database (blastx e-value < 1e-10). We identified multigenic families that appeared larger in spruce than in the Arabidopsis or rice genomes. Detailed analysis of translationally controlled tumour proteins and S-adenosylmethionine synthetase families confirmed a twofold size difference. Sequences and annotations were organized in a dedicated database, SpruceDB. Several search tools were developed to mine the data either based on their occurrence in the cDNA libraries or on functional annotations.</p></div><div type="abstract" xml:lang="en"><p><b>CONCLUSION</b></p><p>This report illustrates specific approaches for large-scale gene discovery and annotation in an organism that is very distantly related to any of the fully sequenced genomes. The ArboreaSet sequences and cDNA clones represent a valuable resource for investigations ranging from plant comparative genomics to applied conifer genetics.</p></div></front></TEI><pubmed><MedlineCitation Status="MEDLINE" Owner="NLM"><PMID Version="1">16236172</PMID><DateCompleted><Year>2006</Year><Month>04</Month><Day>13</Day></DateCompleted><DateRevised><Year>2018</Year><Month>11</Month><Day>13</Day></DateRevised><Article PubModel="Electronic"><Journal><ISSN IssnType="Electronic">1471-2164</ISSN><JournalIssue CitedMedium="Internet"><Volume>6</Volume><PubDate><Year>2005</Year><Month>Oct</Month><Day>19</Day></PubDate></JournalIssue><Title>BMC genomics</Title><ISOAbbreviation>BMC Genomics</ISOAbbreviation></Journal><ArticleTitle>Generation, annotation, analysis and database integration of 16,500 white spruce EST clusters.</ArticleTitle><Pagination><MedlinePgn>144</MedlinePgn></Pagination><Abstract><AbstractText Label="BACKGROUND" NlmCategory="BACKGROUND">The sequencing and analysis of ESTs is for now the only practical approach for large-scale gene discovery and annotation in conifers because their very large genomes are unlikely to be sequenced in the near future. Our objective was to produce extensive collections of ESTs and cDNA clones to support manufacture of cDNA microarrays and gene discovery in white spruce (Picea glauca [Moench] Voss).</AbstractText><AbstractText Label="RESULTS" NlmCategory="RESULTS">We produced 16 cDNA libraries from different tissues and a variety of treatments, and partially sequenced 50,000 cDNA clones. High quality 3' and 5' reads were assembled into 16,578 consensus sequences, 45% of which represented full length inserts. Consensus sequences derived from 5' and 3' reads of the same cDNA clone were linked to define 14,471 transcripts. A large proportion (84%) of the spruce sequences matched a pine sequence, but only 68% of the spruce transcripts had homologs in Arabidopsis or rice. Nearly all the sequences that matched the Populus trichocarpa genome (the only sequenced tree genome) also matched rice or Arabidopsis genomes. We used several sequence similarity search approaches for assignment of putative functions, including blast searches against general and specialized databases (transcription factors, cell wall related proteins), Gene Ontology term assignation and Hidden Markov Model searches against PFAM protein families and domains. In total, 70% of the spruce transcripts displayed matches to proteins of known or unknown function in the Uniref100 database (blastx e-value < 1e-10). We identified multigenic families that appeared larger in spruce than in the Arabidopsis or rice genomes. Detailed analysis of translationally controlled tumour proteins and S-adenosylmethionine synthetase families confirmed a twofold size difference. Sequences and annotations were organized in a dedicated database, SpruceDB. Several search tools were developed to mine the data either based on their occurrence in the cDNA libraries or on functional annotations.</AbstractText><AbstractText Label="CONCLUSION" NlmCategory="CONCLUSIONS">This report illustrates specific approaches for large-scale gene discovery and annotation in an organism that is very distantly related to any of the fully sequenced genomes. The ArboreaSet sequences and cDNA clones represent a valuable resource for investigations ranging from plant comparative genomics to applied conifer genetics.</AbstractText></Abstract><AuthorList CompleteYN="Y"><Author ValidYN="Y"><LastName>Pavy</LastName><ForeName>Nathalie</ForeName><Initials>N</Initials><AffiliationInfo><Affiliation>Pavillon Charles-Eugène-Marchand, Université Laval, Ste.Foy, Québec G1K 7P4, Canada. nathalie.pavy@rsvs.ulaval.ca</Affiliation></AffiliationInfo></Author><Author ValidYN="Y"><LastName>Paule</LastName><ForeName>Charles</ForeName><Initials>C</Initials></Author><Author ValidYN="Y"><LastName>Parsons</LastName><ForeName>Lee</ForeName><Initials>L</Initials></Author><Author ValidYN="Y"><LastName>Crow</LastName><ForeName>John A</ForeName><Initials>JA</Initials></Author><Author ValidYN="Y"><LastName>Morency</LastName><ForeName>Marie-Josee</ForeName><Initials>MJ</Initials></Author><Author ValidYN="Y"><LastName>Cooke</LastName><ForeName>Janice</ForeName><Initials>J</Initials></Author><Author ValidYN="Y"><LastName>Johnson</LastName><ForeName>James E</ForeName><Initials>JE</Initials></Author><Author ValidYN="Y"><LastName>Noumen</LastName><ForeName>Etienne</ForeName><Initials>E</Initials></Author><Author ValidYN="Y"><LastName>Guillet-Claude</LastName><ForeName>Carine</ForeName><Initials>C</Initials></Author><Author ValidYN="Y"><LastName>Butterfield</LastName><ForeName>Yaron</ForeName><Initials>Y</Initials></Author><Author ValidYN="Y"><LastName>Barber</LastName><ForeName>Sarah</ForeName><Initials>S</Initials></Author><Author ValidYN="Y"><LastName>Yang</LastName><ForeName>George</ForeName><Initials>G</Initials></Author><Author ValidYN="Y"><LastName>Liu</LastName><ForeName>Jerry</ForeName><Initials>J</Initials></Author><Author ValidYN="Y"><LastName>Stott</LastName><ForeName>Jeff</ForeName><Initials>J</Initials></Author><Author ValidYN="Y"><LastName>Kirkpatrick</LastName><ForeName>Robert</ForeName><Initials>R</Initials></Author><Author ValidYN="Y"><LastName>Siddiqui</LastName><ForeName>Asim</ForeName><Initials>A</Initials></Author><Author ValidYN="Y"><LastName>Holt</LastName><ForeName>Robert</ForeName><Initials>R</Initials></Author><Author ValidYN="Y"><LastName>Marra</LastName><ForeName>Marco</ForeName><Initials>M</Initials></Author><Author ValidYN="Y"><LastName>Seguin</LastName><ForeName>Armand</ForeName><Initials>A</Initials></Author><Author ValidYN="Y"><LastName>Retzel</LastName><ForeName>Ernest</ForeName><Initials>E</Initials></Author><Author ValidYN="Y"><LastName>Bousquet</LastName><ForeName>Jean</ForeName><Initials>J</Initials></Author><Author ValidYN="Y"><LastName>MacKay</LastName><ForeName>John</ForeName><Initials>J</Initials></Author></AuthorList><Language>eng</Language><PublicationTypeList><PublicationType UI="D016428">Journal Article</PublicationType><PublicationType UI="D013485">Research Support, Non-U.S. Gov't</PublicationType></PublicationTypeList><ArticleDate DateType="Electronic"><Year>2005</Year><Month>10</Month><Day>19</Day></ArticleDate></Article><MedlineJournalInfo><Country>England</Country><MedlineTA>BMC Genomics</MedlineTA><NlmUniqueID>100965258</NlmUniqueID><ISSNLinking>1471-2164</ISSNLinking></MedlineJournalInfo><ChemicalList><Chemical><RegistryNumber>0</RegistryNumber><NameOfSubstance UI="D018076">DNA, Complementary</NameOfSubstance></Chemical><Chemical><RegistryNumber>0</RegistryNumber><NameOfSubstance UI="D012333">RNA, Messenger</NameOfSubstance></Chemical></ChemicalList><CitationSubset>IM</CitationSubset><MeshHeadingList><MeshHeading><DescriptorName UI="D017360" MajorTopicYN="N">Arabidopsis</DescriptorName><QualifierName UI="Q000235" MajorTopicYN="N">genetics</QualifierName></MeshHeading><MeshHeading><DescriptorName UI="D002473" MajorTopicYN="N">Cell Wall</DescriptorName><QualifierName UI="Q000378" 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(ville)</li></settlement><orgName><li>Centre hospitalier universitaire de Montpellier</li><li>Université Laval</li><li>Université de Montpellier</li></orgName></list><tree><noCountry><name sortKey="Barber, Sarah" sort="Barber, Sarah" uniqKey="Barber S" first="Sarah" last="Barber">Sarah Barber</name><name sortKey="Butterfield, Yaron" sort="Butterfield, Yaron" uniqKey="Butterfield Y" first="Yaron" last="Butterfield">Yaron Butterfield</name><name sortKey="Cooke, Janice" sort="Cooke, Janice" uniqKey="Cooke J" first="Janice" last="Cooke">Janice Cooke</name><name sortKey="Crow, John A" sort="Crow, John A" uniqKey="Crow J" first="John A" last="Crow">John A. 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