A trans-splicing group I intron and tRNA-hyperediting in the mitochondrial genome of the lycophyte Isoetes engelmannii
about
Rapid evolution of enormous, multichromosomal genomes in flowering plant mitochondria with exceptionally high mutation ratesReverse genetic screening identifies five E-class PPR proteins involved in RNA editing in mitochondria of Arabidopsis thalianaStructure of transfer RNAs: similarity and variabilityOrganellar RNA editingTrans-splicingGroup II Intron-Mediated Trans-Splicing in the Gene-Rich Mitochondrial Genome of an Enigmatic Eukaryote, Diphylleia rotansConflicting phylogenies for early land plants are caused by composition biases among synonymous substitutionsThe "fossilized" mitochondrial genome of Liriodendron tulipifera: ancestral gene content and order, ancestral editing sites, and extraordinarily low mutation rateThe mitochondrial genomes of the early land plants Treubia lacunosa and Anomodon rugelii: dynamic and conservative evolutionExtensive loss of RNA editing sites in rapidly evolving Silene mitochondrial genomes: selection vs. retroprocessing as the driving force.Extensive loss of translational genes in the structurally dynamic mitochondrial genome of the angiosperm Silene latifolia.Ribosomal protein L10 is encoded in the mitochondrial genome of many land plants and green algae.The mitochondrial genome of the entomoparasitic green alga helicosporidium.Insights into the evolution of mitochondrial genome size from complete sequences of Citrullus lanatus and Cucurbita pepo (Cucurbitaceae).Functional divergence and origin of the DAG-like gene family in plants.Origins and recombination of the bacterial-sized multichromosomal mitochondrial genome of cucumber.The mitochondrial genome of the lycophyte Huperzia squarrosa: the most archaic form in vascular plantsSystematically fragmented genes in a multipartite mitochondrial genome.A widespread and unusual RNA trans-splicing type in dinoflagellate mitochondriaThe mitochondrial genome of the prasinophyte Prasinoderma coloniale reveals two trans-spliced group I introns in the large subunit rRNA geneGinkgo and Welwitschia Mitogenomes Reveal Extreme Contrasts in Gymnosperm Mitochondrial Evolution.Organellar phylogenomics of an emerging model system: Sphagnum (peatmoss).Reverse U-to-C editing exceeds C-to-U RNA editing in some ferns - a monilophyte-wide comparison of chloroplast and mitochondrial RNA editing suggests independent evolution of the two processes in both organelles.Localized Retroprocessing as a Model of Intron Loss in the Plant Mitochondrial GenomeUpdating our view of organelle genome nucleotide landscape.Identification of Symmetrical RNA Editing Events in the Mitochondria of Salvia miltiorrhiza by Strand-specific RNA Sequencing.When you can't trust the DNA: RNA editing changes transcript sequences.Horizontal gene transfer of chlamydial-like tRNA genes into early vascular plant mitochondria.The evolution of the plastid chromosome in land plants: gene content, gene order, gene functionUnscrambling genetic information at the RNA level.One ring to rule them all? Genome sequencing provides new insights into the 'master circle' model of plant mitochondrial DNA structure.A Single-Target Mitochondrial RNA Editing Factor of Funaria hygrometrica Can Fully Reconstitute RNA Editing at Two Sites in Physcomitrella patens.Convergent Evolution of Fern-Specific Mitochondrial Group II Intron atp1i361g2 and Its Ancient Source Paralogue rps3i249g2 and Independent Losses of Intron and RNA Editing among PteridaceaeMonilophyte mitochondrial rps1 genes carry a unique group II intron that likely originated from an ancient paralog in rpl2.The evolutionary conservation of rps3 introns and rps19-rps3-rpl16 gene cluster in Adiantum capillus-veneris mitochondria.A unique transcriptome: 1782 positions of RNA editing alter 1406 codon identities in mitochondrial mRNAs of the lycophyte Isoetes engelmannii.Homologous recombination and retention of a single form of most genes shape the highly chimeric mitochondrial genome of a cybrid plant.Exclusive conservation of mitochondrial group II intron nad4i548 among liverworts and its use for phylogenetic studies in this ancient plant clade.Extreme RNA editing in coding islands and abundant microsatellites in repeat sequences of Selaginella moellendorffii mitochondria: the root of frequent plant mtDNA recombination in early tracheophytes.Empty pericarp5 encodes a pentatricopeptide repeat protein that is required for mitochondrial RNA editing and seed development in maize.
P2860
Q21563526-860F136A-BC49-4817-BD15-F13874FD9148Q24621139-DC24E67F-704A-4611-BDD9-9D139AF30B6FQ26824405-CC840E70-FCFB-4587-8FD2-195EAD76A115Q26827664-7B8D35E6-1667-4451-A0D6-9EC0A9E021F5Q26864730-D02167F0-0E9A-4F76-AA48-747281DA0EEBQ28603239-B5528ADC-084B-47F7-B0C4-8426F8994FBFQ28659001-52D1AC4D-08F3-44D3-B5DA-2BB0B537BCE9Q28705183-0ED4FE6D-1498-44E6-A532-FE424648564EQ28744219-9FC17142-6F6F-41D2-970E-C073D80056EEQ30431238-657CB7E8-ABFF-4221-A1F4-629B1CE9B5A1Q30434749-387D022E-9811-4A17-9D91-A6A375D35696Q33516039-3C9CF425-DDFA-4F50-8BFF-01C97F368644Q33529007-5FB07055-9B77-44FB-AECF-C3C2F398AADEQ33883103-742C040B-50D5-4C78-8A35-4331D24C676FQ33915779-F04F0A36-084C-4480-B48C-FB50141AAE79Q34199225-0D817363-A544-4FCA-903C-686073B4F608Q34236986-2052D9EC-79A3-4227-A47F-C81FC68B1665Q34559682-6F026613-04E1-449F-BEF2-EED3F495D4F0Q34599444-C1C1F336-FBDF-4C29-866C-845D31D3D3FAQ35080914-8C6D82A5-AB74-4637-A13E-23C14A5D08A4Q35910694-FD8F7886-31B7-4BB8-AAE9-743F03CCB105Q36042851-E79DA0D0-7BDF-48F1-8D19-4047F4DA42D5Q36058427-8AE96943-6454-4F69-8C03-BF77376A504EQ36082313-2F7F94CA-86D7-4196-B0A1-3C46DFD4FC50Q36224622-7215BD65-AAB6-41E3-BFD0-840DFD10A413Q37635387-B413EABD-F6E9-4298-9575-9D56B197897BQ37799569-47454280-6323-48E4-8402-EF36C2D582C9Q37842912-04724573-F886-4241-8C1B-ADE4F7F22E3CQ37855690-EB049FB1-2C30-4089-B02A-2A3378C701A8Q37978586-CB2A667B-7BCE-4A99-9DD9-4B125266929BQ38202965-87F1A26D-440A-4D97-A87F-8ADE670B1CC2Q38844539-704C09B4-33C4-4CBC-95C9-1478BD89F280Q39523373-69F8CE6C-64C8-44C5-8171-93759A1BCCBDQ39646784-328CFF79-F4FF-40D0-8D7D-D61D1FD779BDQ40634564-DBEC02B0-93B6-47BC-921A-DFEBFFCED4C7Q42237742-BFD36885-CA8E-4A9C-B206-50DDED57D7A7Q42557005-F8EAC726-311C-4B05-B312-75CCF492C472Q42618972-CFB4E2E5-6E18-4023-B3AC-6B813BA2183BQ42641744-4F7EB454-EE27-4845-96FB-1DFC82D82064Q44057289-358804AB-0527-45C7-9862-11A59F3ABF0E
P2860
A trans-splicing group I intron and tRNA-hyperediting in the mitochondrial genome of the lycophyte Isoetes engelmannii
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh
2009年學術文章
@zh-hant
name
A trans-splicing group I intro ...... lycophyte Isoetes engelmannii
@en
A trans-splicing group I intro ...... lycophyte Isoetes engelmannii
@nl
type
label
A trans-splicing group I intro ...... lycophyte Isoetes engelmannii
@en
A trans-splicing group I intro ...... lycophyte Isoetes engelmannii
@nl
prefLabel
A trans-splicing group I intro ...... lycophyte Isoetes engelmannii
@en
A trans-splicing group I intro ...... lycophyte Isoetes engelmannii
@nl
P2093
P2860
P356
P1476
A trans-splicing group I intro ...... lycophyte Isoetes engelmannii
@en
P2093
Felix Grewe
Prisca Viehoever
Volker Knoop
P2860
P304
P356
10.1093/NAR/GKP532
P407
P577
2009-06-23T00:00:00Z