Particularly interesting was the

Particularly interesting was the coverage of several keynote lectures, often commented simultaneously on single feed by several bloggers in the audience, providing so to say realtime example of crowdsourcing. provide below few picks, relevant to systems biology, while the rest can be consulted and, importantly, searched! in the ISMB Room on FriendFeed.

The result is surprisingly useful set of notes, where the combined attention and complementary knowledge of the participants allow some gaps to be filled, provide additional information including references or links and follow the flow of the presentation as it unfolds. Good job & many thanks!. provide below few picks, relevant to systems biology, while the rest can be consulted and, importantly, searched! in the ISMB Room on FriendFeed.

This data can be used as starting point

We found sperm express many genes, and that the proteins encoded by these genes encompass many different categories. We identified numerous candidate genes whose involvement in sperm cell development and fertilization can be directly tested in Arabidopsis. USA. gov. Pacific Plant Gene Expression Center Albany_CA Title Comparative Transcriptomics of Arabidopsis thaliana Sperm Cells Authors Borges, Filipe GULBENKIAN INST PORTUGAL Submitted to Plant Physiology Publication Type Peer Reviewed Journal Publication Acceptance Date 27, Publication Date 30, Publishers URL httpwww. plantphysiol.

This data can be used as starting point to discover the roles of these spermexpressed proteins. Project Team McCormick, Sheila Publications Publications Related National Programs Plant Biological and Molecular Processes 302 Plant Genetic Resources, Genomics and Genetic Improvement 301

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Technical Abstract In flowering plants the two sperm cells are embedded within the cytoplasm of the growing pollen tube and as such are passively transported to the embryo sac, wherein double fertilization occurs upon their release. Interpretive Summary We purified sperm cells from Arabidopsis plants. Studies of gene expression in male gametes of maize and Plumbago, and in lily generative cells already showed that the previously held view of transcriptionally inert male gametes was not true, but genomewide studies were lacking.

Comparative analysis of the sperm cell transcriptome with those of representative sporophytic tissues and of pollen showed that sperm has distinct and diverse transcriptional profile. Comparative Transcriptomics of Arabidopsis thaliana Sperm Cells Authors Borges, Filipe GULBENKIAN INST PORTUGAL Submitted to Plant Physiology Publication Type Peer Reviewed Journal Publication Acceptance Date 27, Publication Date 30, Publishers URL httpwww. plantphysiol. org Reprint URL Citation Borges, Gomes, Gardner, Moreno, Mccormick, Feijo, J., Becker, J. Comparative Transcriptomics of Arabidopsis thaliana Sperm Cells Authors Borges, Filipe GULBENKIAN INST PORTUGAL Submitted to Plant Physiology

Functional classifications of genes with enriched expression in sperm cells showed that DNA repair, ubiquitin mediated proteolysis and cell cycle progression are overrepresented Gene Ontology categories

General information on journals

A.Koch1 and K.Mummenhoff2 1 Heidelberg Institute of Plant Sciences, Biodiversity and Plant Systematics, University of Heidelberg, Im Neuenheimer Feld 345, 69120Heidelberg, Germany 2 Department of Biology, Systematic Botany, University of Osnabrck, Barbarastrasse 11, 49069Osnabrck, Germany Without Abstract Part of Springer ScienceBusiness Media Privacy, Disclaimer, Terms and Conditions, Copyright Information Privacy Policy Remote User AgentMozilla4. 0 compatible MSIE 6. 0 Windows NT 5. 0 CLR 1. 1.

Text . Clear Title ti Summary su Author au ISSN issn ISBN isbn DOI doi And Or Not wildcard exact Within all content Within this journal Within this issue Export this article as RIS A.Koch1 and K.

Content Types All Publications Journals Book Series Books Reference Works Protocols Subject Collections Architecture and Design Behavioral Science Biomedical and Life Sciences SpringerLink DateSunday, 09, Add to marked items Add to shopping cart Add to saved items Permissions & Reprints Recommend this article PDF 129. 8 KBFree Preview Editorial Evolution and phylogeny of the Brassicaceae JournalPlant Systematics and Evolution PublisherSpringer Wien ISSN03782697 Print 16156110 Online IssueVolume 259, Numbers 24 DOI10. 1007s006060060433x Pages8183 Subject CollectionBiomedical and Life Sciences SpringerLink DateSunday, 09, Add to marked items Add to shopping cart Add to saved items Permissions & Reprints Recommend this article PDF 129.

A.Koch1 and K.Mummenhoff2 1 Heidelberg Institute of Plant Sciences, Biodiversity and Plant Systematics, University of Heidelberg, Im Neuenheimer Feld 345, 69120Heidelberg, Germany 2 Department of Biology, Systematic Botany, University of Osnabrck, Barbarastrasse 11, 49069Osnabrck, Germany Without Abstract more options Find Query Builder Close Part of Springer ScienceBusiness Media Privacy, Disclaimer, Terms and Conditions, Copyright Information Privacy Policy Remote User AgentMozilla4. 0 compatible MSIE 6. 0 Windows NT 5. 0 CLR 1. 1.

Clear Title ti Summary su Author au ISSN issn ISBN isbn DOI doi And Or Not wildcard exact Within all content Within this journal Within this issue Export this article as RIS Text Frequently asked questions General information on journals

Part of Springer ScienceBusiness Media Privacy, Disclaimer, Terms and Conditions, Copyright Information Privacy Policy Remote User AgentMozilla4. 0 compatible MSIE 6. 0 Windows NT 5. 0 CLR 1. 1. 4322Content Types All Publications Journals Book Series Books Reference Works Protocols Subject Collections Architecture and Design Behavioral Science Biomedical and Life Sciences SpringerLink DateSunday, 09, Add to marked items Add to shopping cart Add to saved items Permissions & Reprints Recommend this article PDF 129. 8 KBFree Preview Editorial Evolution and phylogeny of the Brassicaceae A.KochCorresponding authorEmail K.MummenhoffEmail Fulltext Preview Small, Large, Larger, Largest References secured to subscribers.

They might also have

All rights reservedToute reproduction ou diffusion mme partielle, par quelque procd ou sur tout support que ce soit, ne pourra tre faite sans laccord pralable crit de lINISTCNRS. No part of these records be reproduced of distributed, in any form or by any means, without the prior written permission of INISTCNRS. The number of mouse cDNAs identified greatly exceeds the number of genes predicted from the sequenced human and mouse genomes. Custom Search. Notably, ncRNAs are major component of the transcriptomes of higher organisms, and many senseantisense pairs have been identified.

Custom Search. All rights reservedToute reproduction ou diffusion mme partielle, par quelque procd ou sur tout support que ce soit, ne pourra tre faite sans laccord pralable crit de lINISTCNRS. No part of these records be reproduced of distributed, in any form or by any means, without the prior written permission of INISTCNRS. This is largely because of extensive alternative splicing and the presence of many noncoding RNAs ncRNAs, which are difficult to predict from genomic sequences.

The ncRNAs function in range of regulatory mechanisms for gene expression and other biological processes. This is largely because of extensive alternative splicing and the presence of many noncoding RNAs ncRNAs, which are difficult to predict from genomic sequences. Custom Search. The number of mouse cDNAs identified greatly exceeds the number of genes predicted from the sequenced human and mouse genomes. All rights reservedToute reproduction ou diffusion mme partielle, par quelque procd ou sur tout support que ce soit, ne pourra tre faite sans laccord pralable crit de lINISTCNRS.

Center for Microbial Biotechnology Email Kontaktforfatter

Center for Microbial Biotechnology Email Kontaktforfatter Nielsen, Jens Cwisno 1774 Technical University of Denmark, Department of Systems Biology, Center for Microbial Biotechnology Email Kontaktforfatter Nielsen, Jens Cwisno 1774 Technical University of Denmark, Department of Systems Biology, Center for Microbial Biotechnology Email Kontaktforfatter Nielsen, Jens Cwisno 1774 Technical University of Denmark, Department of Systems Biology, Center for Microbial Biotechnology Email Kontaktforfatter Nielsen, Jens Cwisno 1774 Technical University of Denmark, Department of Systems Biology, Center for Microbial Biotechnology Email Kontaktforfatter Nielsen, Jens Cwisno 1774 Technical University of Denmark, Department of Systems Biology, Center for Microbial Biotechnology Email Kontaktforfatter