Group II intron splicing in vivo by first-step hydrolysis
about
The chloroplast and mitochondrial genome sequences of the charophyte Chaetosphaeridium globosum: insights into the timing of the events that restructured organelle DNAs within the green algal lineage that led to land plantsControl of branch-site choice by a group II intronCrystal Structure of a Self-Spliced Group II IntronDEAD-box protein facilitated RNA folding in vivo.Retrotransposition of a yeast group II intron occurs by reverse splicing directly into ectopic DNA sites.The retrohoming of linear group II intron RNAs in Drosophila melanogaster occurs by both DNA ligase 4-dependent and -independent mechanismsMetal ion catalysis during group II intron self-splicing: parallels with the spliceosomeGroup II intron-based gene targeting reactions in eukaryotes.Protein-free small nuclear RNAs catalyze a two-step splicing reaction.Pentamidine inhibits mitochondrial intron splicing and translation in Saccharomyces cerevisiae.A multiprotein complex involved in chloroplast group II intron splicing.Visualization of a group II intron in the 23S rRNA of a stable ribosome.Recurrent insertion of 5'-terminal nucleotides and loss of the branchpoint motif in lineages of group II introns inserted in mitochondrial preribosomal RNAs.Group II introns: mobile ribozymes that invade DNA.Mobile Bacterial Group II Introns at the Crux of Eukaryotic EvolutionThe tertiary structure of group II introns: implications for biological function and evolutionThe RAD52-like protein ODB1 is required for the efficient excision of two mitochondrial introns spliced via first-step hydrolysisSequential splicing of a group II twintron in the marine cyanobacterium Trichodesmium.Predicted group II intron lineages E and F comprise catalytically active ribozymes.The spliceosome as ribozyme hypothesis takes a second step.Experimental analyses of the chemical dynamics of ribozyme catalysisLinear group II intron RNAs can retrohome in eukaryotes and may use nonhomologous end-joining for cDNA ligation.Structural insights into RNA splicing.Biotechnological applications of mobile group II introns and their reverse transcriptases: gene targeting, RNA-seq, and non-coding RNA analysis.Circularization pathway of a bacterial group II intron.Splicing of an intervening sequence by protein-free human snRNAs.Structural Insights into the Mechanism of Group II Intron Splicing.Lariat formation and a hydrolytic pathway in plant chloroplast group II intron splicing.A conjugation-based system for genetic analysis of group II intron splicing in Lactococcus lactis.Diversity and strength of internal outward-oriented promoters in group IIC-attC intronsMetal binding and substrate positioning by evolutionarily invariant U6 sequences in catalytically active protein-free snRNAs.Defining functional groups, core structural features and inter-domain tertiary contacts essential for group II intron self-splicing: a NAIM analysis.Splicing of the Sinorhizobium meliloti RmInt1 group II intron provides evidence of retroelement behavior.A horizontally acquired group II intron in the chloroplast psbA gene of a psychrophilic Chlamydomonas: in vitro self-splicing and genetic evidence for maturase activity.The linear form of a group II intron catalyzes efficient autocatalytic reverse splicing, establishing a potential for mobility.Influence of substrate structure on in vitro ribozyme activity of a group II intron.Relevance of the branch point adenosine, coordination loop, and 3' exon binding site for in vivo excision of the Sinorhizobium meliloti group II intron RmInt1.trans-splicing to spliceosomal U2 snRNA suggests disruption of branch site-U2 pairing during pre-mRNA splicing.Multiple physical forms of excised group II intron RNAs in wheat mitochondriaGroup IIC intron mobility into attC sites involves a bulged DNA stem-loop motif.
P2860
Q22066250-3CF93013-3193-4CA5-9415-A8C7E1911C32Q24535991-34AB1F0C-E30A-471D-8C43-B4D851AF0985Q27650229-7D1F5123-F2EA-4300-B392-E43049AC4465Q27936450-947AB167-EB23-4B3A-A5DF-CE92E3A83DC8Q27939889-64D09D8B-5F2B-4867-8ACA-BFD6714C22B9Q28480874-E1D5B7DC-015B-4970-B391-FF1FC30F7D77Q28776398-7995FBB2-5BB1-4F71-A065-902305CF0E5DQ33366500-9EF862C5-D34F-479E-8DA0-FA494ED135AFQ34018172-BE50860F-D360-4F53-9824-3DE91EAD1B37Q34362783-0810D170-4B4C-422D-9A2C-D0522F639BA8Q34365664-33C283BE-2BD2-4591-9902-4BFFBCEEB0EDQ34772884-55E7DF35-05CA-445A-8F2D-B876D032A8FCQ35111847-A8CCE688-62DC-4599-A9A2-3E7F3D8812F3Q35119248-93C6DD9B-B963-4834-BA49-72631539A4E6Q35387075-F4EE32D1-1793-4EC7-AAB6-8D0C8E814914Q35534256-9919D3CB-7BCC-40D4-AD5B-F7B8305BD9F8Q35885896-E45F6777-94EE-4BD7-81EC-9AD1D3DCB4EBQ36291073-51C5D442-95E3-45FA-9658-6F4D4C7A00FEQ37122972-88EB3B4D-A447-4454-A4A3-5798FD97C5ACQ37282444-E8FD769C-B0A4-4F6F-A67F-80C958E42D77Q37308629-1D5EC2CA-9657-4B70-9012-B7E9200F894AQ37416526-23F9C65D-83B8-426D-885F-82394B2D46D5Q37482801-47D50DCB-FA2E-4B8F-9F91-57EAF95E9FF7Q37501759-B0DC8342-1806-47BC-BE33-F3DB89321BC9Q38667655-642514F9-84D3-49F9-A688-D76458EF34C2Q39174878-BC2C6256-700F-4746-80E8-97FA2E60E773Q39259302-56BCC127-4F6F-48C5-B5F7-8F084647A5FCQ39647629-41378A5C-353C-4E7B-8A5C-EDFB75BF7761Q40700877-774D8094-666C-4D53-B01D-4105CC5BC5DAQ41132773-224CDA0D-5D5B-4FD0-81C2-93FBE4E79F33Q41834871-6C29D2E4-9723-4D55-8092-EEA6849E3695Q41840082-B1C811A0-5930-4531-8914-EB20E282906CQ41872197-91C4D961-542F-45D6-B270-51067732D5C1Q41892649-4628EA16-5BEE-4836-8B2D-21CD885F555AQ41938330-B61C6026-5481-4CEB-BF63-935099649A48Q42112049-F542B941-3D3B-4A78-AF45-24F4BCE9E01CQ42133304-A3BE6394-88EB-4AF1-9D4A-3D15AAC28B06Q42381501-4AECA788-E457-41BD-85EB-55FB2CFE14F0Q42523713-EF6BA915-372A-4D3A-8494-285BDCB46809Q42566192-2ED5A186-7FC1-4BD0-8A12-C63A74A7D3B0
P2860
Group II intron splicing in vivo by first-step hydrolysis
description
article publié dans la revue scientifique Nature
@fr
scientific article published in Nature
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована в Nature в лютому 1998
@uk
name
Group II intron splicing in vivo by first-step hydrolysis
@en
Group II intron splicing in vivo by first-step hydrolysis
@nl
type
label
Group II intron splicing in vivo by first-step hydrolysis
@en
Group II intron splicing in vivo by first-step hydrolysis
@nl
prefLabel
Group II intron splicing in vivo by first-step hydrolysis
@en
Group II intron splicing in vivo by first-step hydrolysis
@nl
P2093
P1433
P1476
Group II intron splicing in vivo by first-step hydrolysis
@en
P2093
P407
P577
1998-02-26T00:00:00Z