An organellar maturase associates with multiple group II introns
about
sameAs
How to build functional thylakoid membranes: from plastid transcription to protein complex assemblyDetecting and Characterizing the Highly Divergent Plastid Genome of the Nonphotosynthetic Parasitic Plant Hydnora visseri (Hydnoraceae)Alternative translation initiation codons for the plastid maturase MatK: unraveling the pseudogene misconception in the OrchidaceaeElimination of a group II intron from a plastid gene causes a mutant phenotypeRampant gene loss in the underground orchid Rhizanthella gardneri highlights evolutionary constraints on plastid genomesPiecing together the puzzle of parasitic plant plastome evolution.Cytoplasmic genome substitution in wheat affects the nuclear-cytoplasmic cross-talk leading to transcript and metabolite alterations.iTRAQ-based analysis of changes in the cassava root proteome reveals pathways associated with post-harvest physiological deterioration.An intronic open reading frame was released from one of group II introns in the mitochondrial genome of the haptophyte Chrysochromulina sp. NIES-1333.Evolution of group II intronsMechanisms of functional and physical genome reduction in photosynthetic and nonphotosynthetic parasitic plants of the broomrape family.The Highly Reduced Plastome of Mycoheterotrophic Sciaphila (Triuridaceae) Is Colinear with Its Green Relatives and Is under Strong Purifying Selection.Plastome Evolution in Hemiparasitic MistletoesThe loss of photosynthetic pathways in the plastid and nuclear genomes of the non-photosynthetic mycoheterotrophic eudicot Monotropa hypopitys.Complete chloroplast genome sequence of holoparasite Cistanche deserticola (Orobanchaceae) reveals gene loss and horizontal gene transfer from its host Haloxylon ammodendron (Chenopodiaceae).Plastid gene expression and plant development require a plastidic protein of the mitochondrial transcription termination factor family.Group II introns: mobile ribozymes that invade DNA.A tiling microarray for global analysis of chloroplast genome expression in cucumber and other plants.Proteomic analysis of mature Lagenaria siceraria seed.A short PPR protein required for the splicing of specific group II introns in angiosperm chloroplasts.Assembled Plastid and Mitochondrial Genomes, as well as Nuclear Genes, Place the Parasite Family Cynomoriaceae in the Saxifragales.ChloroSeq, an Optimized Chloroplast RNA-Seq Bioinformatic Pipeline, Reveals Remodeling of the Organellar Transcriptome Under Heat Stress.Plastomes on the edge: the evolutionary breakdown of mycoheterotroph plastid genomes.Comparative sequence analysis of a multidrug-resistant plasmid from Aeromonas hydrophila.Proteomic comparison reveals the contribution of chloroplast to salt tolerance of a wheat introgression line.Albino Leaf 2 is involved in the splicing of chloroplast group I and II introns in riceThe evolution of chloroplast genes and genomes in ferns.The evolution of the plastid chromosome in land plants: gene content, gene order, gene functionRNA processing and decay in plastids.Proteomic insights into seed germination in response to environmental factors.Synthetic biology in plastids.Group II intron splicing factors in plant mitochondria.The group II intron maturase: a reverse transcriptase and splicing factor go hand in hand.Multiple checkpoints for the expression of the chloroplast-encoded splicing factor MatK.WHITE STRIPE LEAF4 Encodes a Novel P-Type PPR Protein Required for Chloroplast Biogenesis during Early Leaf Development.Plastid genome evolution across the genus Cuscuta (Convolvulaceae): two clades within subgenus Grammica exhibit extensive gene loss.Loss of a Trans-Splicing nad1 Intron from Geraniaceae and Transfer of the Maturase Gene matR to the Nucleus in Pelargonium.Evolution of plant mitochondrial intron-encoded maturases: frequent lineage-specific loss and recurrent intracellular transfer to the nucleus.Evolutionary and biotechnology implications of plastid genome variation in the inverted-repeat-lacking clade of legumes.Arabidopsis chloroplast RNA binding proteins CP31A and CP29A associate with large transcript pools and confer cold stress tolerance by influencing multiple chloroplast RNA processing steps.
P2860
Q27024083-6EFAEAC1-BFBB-4C0A-A450-74451AB8F17EQ28603252-16693E44-EDFA-4CAD-8719-643D80E47F75Q28607097-3B81F573-D4A6-454F-8CB2-CCE832DA4FEDQ28742911-2110BEAB-A8E6-43D9-9DBF-5C7BDFD83FFEQ28743740-A5B866F3-E960-4CBF-B85C-6598E9F4A298Q33352003-967BBBC4-8394-4BAD-B45C-4679FBA5223AQ33559197-BED765B8-1D92-4906-98C3-84EA0C2BA724Q33854749-F2F828CE-C175-483E-B24B-0F6FAEA22960Q33878716-8684C812-BD4F-4AFB-B73B-D46E2AE31D8FQ34043967-6B79D382-C27A-4943-BE42-729D73529934Q34379074-A4321EA7-F2F5-4005-BE66-B3DA7D8A69FDQ34484807-673AC376-45AC-46BF-8578-610B96915033Q34491497-8BC20BE6-10C0-41F2-964A-1F2E06EABA4DQ34549742-4F2A37A6-3C1E-4426-A249-3204AEA6A323Q34648264-2E64B7FB-BFCC-429D-87E5-D01C451E0CD1Q34835838-23566DE0-06C7-4D7F-8099-0AFD7DBE388AQ35119248-F1E51A4F-886D-4B7A-B09D-47DCDC859C01Q35373798-D8FC365A-4336-4E1F-AF27-21C8E7C42396Q35559488-3FF76054-6D1E-4C42-A6E4-766B8C2567A1Q35981916-81826E35-EB2A-4D58-84AB-C5D3BC2D4B87Q36064493-BE0A4A26-F12D-4732-8DE6-6B779E841AE8Q36073455-286FDA80-D379-4DFD-B53F-B73409CCFCBBQ36244344-F08EE9C7-A6F6-4E67-BF33-9F421B84023FQ36505356-868536B7-3B50-4CEF-AE86-1F436137D1EBQ37209116-EAC54FE2-17A9-4746-96B7-95195BB0ADA4Q37308517-EA1EA87A-1626-4080-9A9C-9BE09BF03712Q37803156-9359D7A5-4AC8-45B5-B8E2-99FD7D61C3E6Q37855690-82037721-2E1B-45D0-8E40-10EA62A81A4CQ38093803-5B6670C0-B4D6-40A5-8D60-3586A73151E5Q38132402-C50B5AAE-DB7F-4DC0-8560-C3EC4B39B746Q38154637-1F56F760-B268-454A-8ED4-2449569C020BQ38193808-7572B2A1-61C2-48F3-97EF-D12EDD4F9C26Q39320193-E41BA2F6-194F-4DC7-917A-860F2BA37605Q39323715-418CF368-8190-4F14-BAB7-A97CFD0B6003Q41050214-16D2F610-798F-47D4-B19F-3BFB2026D757Q42168424-DA7A0C11-EE07-41AF-9B8E-68C2D45D2088Q42345746-6B2D3F6C-497D-448D-959D-6E279ABA6835Q42615568-9D53E545-C33C-4787-96DA-1E5FA7932A3AQ43448295-E8EDE272-5A06-4299-B809-29F8A3FB5DDBQ44492014-D93BCCB6-B35F-4C52-82A0-F3FC41046248
P2860
An organellar maturase associates with multiple group II introns
description
2010 nî lūn-bûn
@nan
2010 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
An organellar maturase associates with multiple group II introns
@ast
An organellar maturase associates with multiple group II introns
@en
An organellar maturase associates with multiple group II introns
@nl
type
label
An organellar maturase associates with multiple group II introns
@ast
An organellar maturase associates with multiple group II introns
@en
An organellar maturase associates with multiple group II introns
@nl
prefLabel
An organellar maturase associates with multiple group II introns
@ast
An organellar maturase associates with multiple group II introns
@en
An organellar maturase associates with multiple group II introns
@nl
P2093
P2860
P50
P3181
P356
P1476
An organellar maturase associates with multiple group II introns
@en
P2093
Christian Schmitz-Linneweber
Masahiro Sugiura
Thomas Börner
P2860
P304
P3181
P356
10.1073/PNAS.0909400107
P407
P577
2010-01-28T00:00:00Z