Differential roles of the transposon termini in IS91 transposition
about
Rolling-circle transposons in eukaryotesInsertion sequencesTreasures in the attic: rolling circle transposons discovered in eukaryotic genomesExcision of IS492 requires flanking target sequences and results in circle formation in Pseudoalteromonas atlanticaTransposition of ISHp608, member of an unusual family of bacterial insertion sequences.Transposases are the most abundant, most ubiquitous genes in nature.Miniature transposable sequences are frequently mobilized in the bacterial plant pathogen Pseudomonas syringae pv. phaseolicola.Folded DNA in action: hairpin formation and biological functions in prokaryotes.Mobilization of RAG-generated signal ends by transposition and insertion in vivoStructure-based discovery and description of plant and animal HelitronsIntegrating prokaryotes and eukaryotes: DNA transposases in light of structure.Mutator phenotype of Caenorhabditis elegans DNA damage checkpoint mutantsMassive amplification of rolling-circle transposons in the lineage of the bat Myotis lucifugus.The making of a genomic parasite - the Mothra family sheds light on the evolution of Helitrons in plants.A Helitron transposon reconstructed from bats reveals a novel mechanism of genome shuffling in eukaryotesThe IS1111 family members IS4321 and IS5075 have subterminal inverted repeats and target the terminal inverted repeats of Tn21 family transposonsISCR elements: novel gene-capturing systems of the 21st century?Transposable modules generated by a single copy of insertion sequence ISPme1 and their influence on structure and evolution of natural plasmids of Paracoccus methylutens DM12.Homologues of bacterial TnpB_IS605 are widespread in diverse eukaryotic transposable elementsHelitrons in Drosophila: Chromatin modulation and tandem insertionsIdentification and evolution of the silkworm helitrons and their contribution to transcripts.CTXphi contains a hybrid genome derived from tandemly integrated elementsDistribution, diversity, evolution, and survival of Helitrons in the maize genome.Analysis of antibiotic resistance regions in Gram-negative bacteria.Genetic rearrangements of the regions adjacent to genes encoding heat-labile enterotoxins (eltAB) of enterotoxigenic Escherichia coli strains.Experimental evidence for IS1294b-mediated transposition of the blaCMY-2 cephalosporinase gene in Enterobacteriaceae.An active nonautonomous mobile element in Sulfolobus islandicus REN1H1.Structural characterization of ISCR8, ISCR22, and ISCR23, subgroups of IS91-like insertion elementsNovel arrangement of the blaCTX-M-55 gene in an Escherichia coli isolate coproducing 16S rRNA methylase.The Different Faces of Rolling-Circle Replication and Its Multifunctional Initiator Proteins.Evolution of Sphingomonad Gene Clusters Related to Pesticide Catabolism Revealed by Genome Sequence and Mobilomics of Sphingobium herbicidovorans MH.Helraiser intermediates provide insight into the mechanism of eukaryotic replicative transposition.
P2860
Q24630293-A75B4813-0D4C-4564-8D2A-B721374B3AEBQ29617579-C741C9F5-3C31-408F-AFF6-8969BB18E22DQ33928946-CDE41918-4AC7-41B4-84C1-2EB5539FD815Q33992705-DE831E68-9A24-410B-A269-BA1B1D7CE306Q34016167-D61D2AA6-514A-42A4-A224-DDA5B6AC182CQ34020170-8ED5B257-8EB9-4AE3-AA1D-CBF18CF8612DQ34053316-889AA5D3-3565-4602-B620-AAD69F353B02Q34152536-9340862D-9363-46B8-AD26-3759024E496FQ34353659-999A94AD-0694-4D4F-897A-65C98650B7AEQ34993314-0C0DC0FF-2502-4DD2-88EF-A5C2B9FA893DQ35023166-D36923EB-E101-4C3B-B674-B7AB02305F5BQ35083072-0BE4830E-0E61-4DCA-B117-E52E8505522DQ35629302-FC0A1A59-2975-4EEC-AC00-C5DEB4B14936Q35873979-D916AFAE-9303-4C75-A0D8-2AFE0AEB8FBFQ35941741-D0BCC0BC-CD99-4C25-B8FE-091DE32D6808Q36371031-291377FF-BAEE-4F43-AC4C-9B5B7E73780DQ36499667-1069AABB-409A-48A8-9C69-F39F9C28F172Q36594561-B56D55E8-C82E-4761-BC05-D28544BD8C5FQ36770602-9CD7B0A9-73B2-4AC8-966E-3D46FE6E8010Q36812430-698C7836-F62C-4EF6-B132-106FA25994C3Q37212968-FD069BCD-48F1-4604-83DE-3F2C02060D5FQ37233735-41C7CD89-311E-4795-AE40-BFD5146C4608Q37446470-68AEA227-2A0E-4900-BB08-0D39ABCC990AQ37874671-486B4DE6-077D-4B5A-BCD6-EA8FE189A71EQ39484738-A29868D3-798A-4697-BD6F-FF41375C42AEQ41646165-1506001E-748A-4F38-BE94-293F1B85E027Q42156638-F8C85B32-B9F2-4F17-88C3-8535C878BC7BQ42181717-A9FBC202-F0FA-442F-A79E-7F4C95976302Q45160990-CA47DA1A-342F-4D94-90A2-C6061A210D6BQ47135186-DF79350B-0944-48EC-9706-A8CED5A476EAQ47138781-3FD34DBB-6758-4D78-A242-68998A057308Q52723086-BC0F8A37-4EFC-4EF4-BC6F-77AB6786530E
P2860
Differential roles of the transposon termini in IS91 transposition
description
1994 nî lūn-bûn
@nan
1994 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
1994 թվականի մարտին հրատարակված գիտական հոդված
@hy
1994年の論文
@ja
1994年論文
@yue
1994年論文
@zh-hant
1994年論文
@zh-hk
1994年論文
@zh-mo
1994年論文
@zh-tw
1994年论文
@wuu
name
Differential roles of the transposon termini in IS91 transposition
@ast
Differential roles of the transposon termini in IS91 transposition
@en
type
label
Differential roles of the transposon termini in IS91 transposition
@ast
Differential roles of the transposon termini in IS91 transposition
@en
prefLabel
Differential roles of the transposon termini in IS91 transposition
@ast
Differential roles of the transposon termini in IS91 transposition
@en
P2093
P2860
P356
P1476
Differential roles of the transposon termini in IS91 transposition
@en
P2093
Bernales I
Mendiola MV
de la Cruz F
P2860
P304
P356
10.1073/PNAS.91.5.1922
P407
P577
1994-03-01T00:00:00Z