Integration of the Tetrahymena group I intron into bacterial rRNA by reverse splicing in vivo.
about
Barriers to intron promiscuity in bacteria.Site-specific reverse splicing of a HEG-containing group I intron in ribosomal RNA.Phylogenetic analyses suggest reverse splicing spread of group I introns in fungal ribosomal DNA.In vivo selection of better self-splicing introns in Escherichia coli: the role of the P1 extension helix of the Tetrahymena intron.Ribozymes: the characteristics and properties of catalytic RNAs.Occurrence and characteristics of group 1 introns found at three different positions within the 28S ribosomal RNA gene of the dematiaceous Phialophora verrucosa: phylogenetic and secondary structural implications.Evaluating group I intron catalytic efficiency in mammalian cells.Molecular characterization of a new member of the lariat capping twin-ribozyme introns.Sequence specificity of in vivo reverse splicing of the Tetrahymena group I intronRefolding of rRNA exons enhances dissociation of the Tetrahymena intronEvolutionary and biogeographical implications of degraded LAGLIDADG endonuclease functionality and group I intron occurrence in stony corals (Scleractinia) and mushroom corals (Corallimorpharia).Unexpected abundance of self-splicing introns in the genome of bacteriophage Twort: introns in multiple genes, a single gene with three introns, and exon skipping by group I ribozymesThe spread of LAGLIDADG homing endonuclease genes in rDNA.Group I introns and inteins: disparate origins but convergent parasitic strategies.Molecular recognition properties of IGS-mediated reactions catalyzed by a Pneumocystis carinii group I intron.Complex evolutionary patterns of tRNA Leu(UAA) group I introns in the cyanobacterial radiation [corrected].A Tetrahymena thermophila ribozyme-based indicator gene to detect transposition of marked retroelements in mammalian cells.Gene Drive for Mosquito Control: Where Did It Come from and Where Are We Headed?A likely pathway for formation of mobile group I introns.Survey of group I and group II introns in 29 sequenced genomes of the Bacillus cereus group: insights into their spread and evolution.Nuclear group I introns in self-splicing and beyond.Toxic introns and parasitic intein in Coxiella burnetii: legacies of a promiscuous past.Tetrahymena thermophila and Candida albicans group I intron-derived ribozymes can catalyze the trans-excision-splicing reaction.The unusual 23S rRNA gene of Coxiella burnetii: two self-splicing group I introns flank a 34-base-pair exon, and one element lacks the canonical omegaG.Widespread occurrence of spliceosomal introns in the rDNA genes of ascomycetes.Accumulation of Stable Full-Length Circular Group I Intron RNAs during Heat-Shock.The evolution of homing endonuclease genes and group I introns in nuclear rDNA.Evolutionary dynamics of multiple group I introns in nuclear ribosomal RNA genes of endoparasitic fungi of the genus Cordyceps.A Diverse Population of Introns in the Nuclear Ribosomal Genes of Ericoid Mycorrhizal Fungi Includes Elements with Sequence Similarity to Endonuclease-Coding Genes
P2860
Q24524089-EF285A3B-8AD2-4F2A-82A8-E8A79F3A58FAQ24791753-3C24349F-558E-4993-B97A-03F451689456Q24814832-12B2F212-E17A-4AEE-AA6E-8AB85F0B65D1Q30309372-552E52C2-2B7D-4336-AE78-4A8AFC12A2F5Q33660969-5415ED9B-F967-4854-B1D9-E74739CDA1A1Q33891651-DE6A1EB1-666A-4FEE-BC34-11E642DA5208Q33959590-2F1FA593-8398-49EF-996E-075F0ADF22C7Q34203844-9F8B92C7-5943-4033-91BA-AD0816700CB0Q34361688-1C2AA849-4497-4637-9587-22BBC806E380Q34362983-6FE654F9-D2FE-45F2-85ED-C928A1B135EBQ36302678-7DC23133-9D8D-4857-9A31-DB6E8BAFFD17Q36388786-A2F0EE61-0C98-4981-9664-EAC3FD102924Q37521377-11EFE111-EC6E-4EB4-9027-A9C604F57F2EQ37576811-72847587-0C4A-4C36-9764-39D70BAD26EAQ38356388-BDE9B3E6-3628-4E5F-99AE-2523DBF437DEQ39495968-996C8D37-8812-402D-838F-7AC9B3DD0566Q39615704-78335E52-EBD2-4743-91F9-EF6C105DB003Q40068044-9FA108B8-6D1D-4FD9-8055-A7BAC2C782BFQ40081478-39C369AF-9E39-4169-9330-BD658D5C2A2CQ41728634-20C019CA-6AF5-40E0-943E-1E847AECCD4DQ42036073-4F668338-C37B-4BE8-829B-92EE76D38BF9Q42406779-9C527A7D-9E63-4CFE-BC4E-97CED6D79CFFQ42433726-FB36CD25-D308-4AC5-838D-AFB3BD2BCB04Q42637175-2A27616A-68E1-4217-9A09-C023B8364EE0Q42638683-DFBF85FC-3241-4D9C-AC10-7C8F8EF594ACQ46465148-349285AE-E35D-4385-8267-CFF0FF9AE915Q48221809-4B9FA623-4CE8-45A5-AD89-FCD37BFF9BE3Q48347912-3FE911BB-6760-45DC-8B75-0264905BE902Q58856715-82E1DC61-9B69-4B3B-954B-3DD8043D5846
P2860
Integration of the Tetrahymena group I intron into bacterial rRNA by reverse splicing in vivo.
description
1998 nî lūn-bûn
@nan
1998年の論文
@ja
1998年論文
@yue
1998年論文
@zh-hant
1998年論文
@zh-hk
1998年論文
@zh-mo
1998年論文
@zh-tw
1998年论文
@wuu
1998年论文
@zh
1998年论文
@zh-cn
name
Integration of the Tetrahymena ...... A by reverse splicing in vivo.
@ast
Integration of the Tetrahymena ...... A by reverse splicing in vivo.
@en
type
label
Integration of the Tetrahymena ...... A by reverse splicing in vivo.
@ast
Integration of the Tetrahymena ...... A by reverse splicing in vivo.
@en
prefLabel
Integration of the Tetrahymena ...... A by reverse splicing in vivo.
@ast
Integration of the Tetrahymena ...... A by reverse splicing in vivo.
@en
P2860
P356
P1476
Integration of the Tetrahymena ...... A by reverse splicing in vivo.
@en
P2093
P2860
P304
P356
10.1073/PNAS.95.5.2134
P407
P577
1998-03-01T00:00:00Z