The Genome of Black Cottonwood, Populus trichocarpa (Torr. & Gray)Introduction of a Chimeric Chalcone Synthase Gene into Petunia Results in Reversible Co-Suppression of Homologous Genes in transIdentification of novel conserved peptide uORF homology groups in Arabidopsis and rice reveals ancient eukaryotic origin of select groups and preferential association with transcription factor-encoding genesFLOWERING LOCUS T protein may act as the long-distance florigenic signal in the cucurbits.Targeted forward mutagenesis by transitive RNAi.Plant science. A window on the sophistication of plants.Translational regulation of Arabidopsis XIPOTL1 is modulated by phosphocholine levels via the phylogenetically conserved upstream open reading frame 30.RNA traffics information systemically in plantsThe origin of land plants: a union of alga and fungus advanced by flavonoids?Analysis of histone acetyltransferase and histone deacetylase families of Arabidopsis thaliana suggests functional diversification of chromatin modification among multicellular eukaryotes.Phytochrome control of RNA levels in developing pea and mung-bean leaves.Novel evolutionary variation in transcription and location of two chloroplast genesA vision for 21st century agricultural research.Conserved Peptide Upstream Open Reading Frames are Associated with Regulatory Genes in AngiospermsRestructuring the genome in response to adaptive challenge: McClintock's bold conjecture revisited.A paragenetic perspective on integration of RNA silencing into the epigenome and its role in the biology of higher plants.A restriction enzyme cleavage map of Tn5 and location of a region encoding neomycin resistance.We're All Computational Biologists Now…Next Stop, the Global Brain?Of genes and genomes: challenges for the twenty-first century.Distinct extremely abundant siRNAs associated with cosuppression in petunia.Microhomologies between T-DNA ends and target sites often occur in inverted orientation and may be responsible for the high frequency of T-DNA-associated inversions.Evaluating and improving cDNA sequence quality with cQC.Chalcone synthase cosuppression phenotypes in petunia flowers: comparison of sense vs. antisense constructs and single-copy vs. complex T-DNA sequences.A specific tetracycline-induced, low-molecular-weight RNA encoded by the inverted repeat of Tn10 (IS10).Effectiveness of RNA interference in transgenic plants.21st century plant biology: viva la revolucion?T-DNA is organized predominantly in inverted repeat structures in plants transformed with Agrobacterium tumefaciens C58 derivativesThe freedom to innovate: a privilege or a right?Richard JorgensenASPB's response to NIH's public access policyASPB's response to the NIH's Public Access PolicySequencing Maize: Just Sample the Salsa or Go for the Whole Enchilada?What is the plant cell?Silencing Morpheus awakens transgenesDo unintended antisense transcripts contribute to sense cosuppression in plants?BOTANY: An RNA-Based Information Superhighway in PlantsSuppression of recombination in wide hybrids of Petunia hybrida as revealed by genetic mapping of marker transgenesStructure and variation in ribosomal RNA genes of peaHomology-based control of gene expression patterns in transgenic petunia flowersReflections on the Issue of Regulation in Molecular and Cellular Biology
P50
Q22065883-72062F47-9540-4CF6-B086-553FDCF65599Q24677038-076CAFDB-F7F6-4416-8225-11D48B74E205Q28756722-FD99F998-2F11-4135-84D5-6C106C65D2D6Q33344089-4ADFBB4A-90C1-4097-8185-770B02199F04Q33348320-9DF5FE18-5C7B-4025-964C-23E90B91AD43Q33352034-73D117FE-CB0B-4960-9B5C-BD14FBA462A9Q33353903-18525366-5068-4C23-AC79-CF29C27A264BQ34153672-860710C3-5C14-431B-9E58-874FC13E97A6Q34339380-6D18E422-0ABB-4FE7-9752-F8217498CB99Q34397082-B3547912-C45D-4F70-87A1-10BBC661FF56Q35050158-A96B6BF0-EFFE-4643-9389-54ACA004C12AQ35719179-A5639F98-B06B-4D82-B91A-809D0134707AQ36092249-7A4C8F88-A118-4FA5-9863-732E988D6B3EQ36186737-249142C5-93AB-418B-9919-A4FA4B0E0F9CQ36238624-14C1CD7A-12EA-475A-8A9E-93DA10B4EDC1Q36768192-F0ADE669-4839-4188-BDF8-6143559AB8C6Q40290146-8C0E6784-1A1D-4E55-A390-3B2FD63F7A1CQ40739640-B2DD3ABA-673B-47FD-8715-788C9D060053Q41866518-02247215-AEC3-487C-8C25-44BA34BF7821Q42587255-79A6C3C2-143E-430C-8BF3-444B37130364Q42608159-DA82BAA7-2E23-4274-B442-55BCD1F3F9B5Q42671122-1C49A7F9-BBEB-40DE-A275-25E03A778095Q46126682-B40FB0A7-E8C4-43CB-BD69-F19FEDB98FB8Q47281128-FD51A9D7-1196-41CF-A3F0-CDB5FBC89160Q48190210-7A83C7F0-1A70-488F-8E89-BD08A380B7D6Q53205721-9604B448-6EA9-4CB2-8E4D-2CE7F79AEB89Q57748616-6B7C648F-B63F-4DF7-9A11-8422BA1CDB75Q59645591-681A3F94-9D26-495C-B75A-2F0765250F53Q59645595-3016A52E-8C9C-4A8D-B46E-513392A6B1F7Q59645596-EE6A78B2-5695-4D42-91FC-E73433A5EF86Q59645597-A3E5D912-8D29-421A-9653-9014D76F2EB8Q59645633-FBE567CC-87E7-43F3-A919-D24CFDCBC631Q59645636-95383E76-9D83-49DA-BB79-B48A5DC454F8Q59645660-54F99291-B300-4133-8708-A3C7FCBE7A1CQ59645670-E0221D4C-5C4E-4D26-B622-A22C449CED6DQ59645679-1B13DE6C-FD6D-4124-AFB4-B5071609EAB8Q59645691-3E68484B-1959-4A5D-AD35-104C16D2F0DDQ59645711-2A4D10C7-6712-48A3-A036-00A8233CA05DQ74306817-845E8303-61DC-4681-89F1-419303163EB5Q91995572-BF25F5D8-3FA6-475A-8F35-091432D1F473
P50
description
American biologist
@en
ahli biologi
@id
biolojiste american
@lfn
bioloog
@nl
biólogo estadounidense
@es
usona biologo
@eo
name
Richard A. Jorgensen
@ace
Richard A. Jorgensen
@af
Richard A. Jorgensen
@an
Richard A. Jorgensen
@ast
Richard A. Jorgensen
@bar
Richard A. Jorgensen
@br
Richard A. Jorgensen
@ca
Richard A. Jorgensen
@co
Richard A. Jorgensen
@cs
Richard A. Jorgensen
@cy
type
label
Richard A. Jorgensen
@ace
Richard A. Jorgensen
@af
Richard A. Jorgensen
@an
Richard A. Jorgensen
@ast
Richard A. Jorgensen
@bar
Richard A. Jorgensen
@br
Richard A. Jorgensen
@ca
Richard A. Jorgensen
@co
Richard A. Jorgensen
@cs
Richard A. Jorgensen
@cy
prefLabel
Richard A. Jorgensen
@ace
Richard A. Jorgensen
@af
Richard A. Jorgensen
@an
Richard A. Jorgensen
@ast
Richard A. Jorgensen
@bar
Richard A. Jorgensen
@br
Richard A. Jorgensen
@ca
Richard A. Jorgensen
@co
Richard A. Jorgensen
@cs
Richard A. Jorgensen
@cy
P69
P106
P1153
7102767239
P21
P2798
P31
P496
0000-0002-0382-2371
P569
1951-01-01T00:00:00Z