about
Comparative genomic analysis of fungal genomes reveals intron-rich ancestorsA human-curated annotation of the Candida albicans genome.The excess of 5' introns in eukaryotic genomesNew maximum likelihood estimators for eukaryotic intron evolutionAnalysis of ribosomal protein gene structures: implications for intron evolution.Identifying the mechanisms of intron gain: progress and trendsPhylogenetic distribution of intron positions in alpha-amylase genes of bilateria suggests numerous gains and lossesOrigin and evolution of spliceosomal intronsFrequency of intron loss correlates with processed pseudogene abundance: a novel strategy to test the reverse transcriptase model of intron lossGene make-up: rapid and massive intron gains after horizontal transfer of a bacterial α-amylase gene to BasidiomycetesIntron gains and losses in the evolution of Fusarium and Cryptococcus fungiExtensive intron gain in the ancestor of placental mammalsSpliceosomal introns as tools for genomic and evolutionary analysisSeventeen new complete mtDNA sequences reveal extensive mitochondrial genome evolution within the DemospongiaeAlternative splicing: a missing piece in the puzzle of intron gainThree distinct modes of intron dynamics in the evolution of eukaryotes.Malin: maximum likelihood analysis of intron evolution in eukaryotes.DNA double-strand break repair and the evolution of intron density.Evolution of a subtilisin-like protease gene family in the grass endophytic fungus Epichloë festucae.Nonsense-mediated decay enables intron gain in Drosophila.Origin of spliceosomal introns and alternative splicingThe pattern of intron loss.Finding single copy genes out of sequenced genomes for multilocus phylogenetics in non-model fungiRates of intron loss and gain: implications for early eukaryotic evolution.Mechanisms of intron gain and loss in Drosophila.Using RNA-seq to determine the transcriptional landscape and the hypoxic response of the pathogenic yeast Candida parapsilosisGenomic analyses and transcriptional profiles of the glycoside hydrolase family 18 genes of the entomopathogenic fungus Metarhizium anisopliae.Separate introns gained within short and long soluble peridinin-chlorophyll a-protein genes during radiation of Symbiodinium (Dinophyceae) clade A and B lineages.Recurrent loss of specific introns during angiosperm evolution.Very little intron loss/gain in Plasmodium: intron loss/gain mutation rates and intron number.Mechanisms of intron loss and gain in the fission yeast Schizosaccharomyces.Intron evolution in Neurospora: the role of mutational bias and selection.Large-scale intron conservation and order-of-magnitude variation in intron loss/gain rates in apicomplexan evolution.Automated alignment-based curation of gene models in filamentous fungiIntron gain and loss in segmentally duplicated genes in rice.Novel Introner-Like Elements in fungi Are Involved in Parallel Gains of Spliceosomal IntronsWhat Can Domesticated Genes Tell Us about the Intron Gain in Mammals?The rise and falls of introns.Where is the difference between the genomes of humans and annelids?High rate of recent intron gain and loss in simultaneously duplicated Arabidopsis genes.
P2860
Q21092873-7A61B7DF-8145-4165-872C-F7E9A72246E8Q21145286-4661661C-AB10-4C27-8405-2CA4081889B3Q24812297-126EF520-352B-40EE-8ECE-C104835E954CQ25256117-BA7308D9-6BAF-4D4A-8BEF-727ED930422BQ25257177-4B889D7E-B6B3-4048-ACC9-6C4407E8891AQ26995241-114EAF35-8D76-49E3-B2C7-AFD7D5425E00Q27342688-AEB135C1-BB3F-4777-AAB1-AEC907440208Q27498824-FD09C09A-135F-4287-BD40-521FB57C4DCEQ28703895-5538757F-60E8-4231-AFD1-E416DBBB3B12Q28706239-5CC64FF4-FA3B-4D23-98AD-D6F4BCA70323Q28710407-631112B2-1691-4B9D-A6F6-13151CE6A4D7Q28732854-612BB4F3-398F-462F-8376-054519E7EDCBQ28755266-7FDE27FF-A2CD-497B-B2D6-3E67E699B298Q28757825-F4C481A1-C9A4-497E-918C-10FD782318D2Q28757865-160F793B-E54C-449A-8D87-83936593CB99Q33284336-6AB0CBFD-AF5F-4188-8766-CF4A5DBB3D35Q33334015-780144A5-447A-450E-9E58-E63D5D2668AEQ33350157-52137A41-8955-4380-8DFB-79E788F81942Q33483735-76B9BA77-D02F-4E71-AA1F-E1AE48C84130Q33526993-741C1B9A-14B5-4181-91E7-AA0BBD408AF4Q33653714-166EC170-4332-4EFD-9D3A-4079333915B0Q33756723-67C973CF-9A0B-47B1-A0FE-BA4AC8E06E35Q33886674-C5C7D4A1-50C9-47E4-8885-89935F9536DEQ33936911-8735E6B6-3BA2-4116-B476-99A7ADE1555BQ34105725-6EF69403-CBAE-4A60-8AA5-26714C3FC9EFQ34109099-F0BE6F31-E3D1-46F2-BF67-97ABA7BA21DAQ34215227-88202B9A-A209-4FE6-B83E-D1A62DBF3B9FQ34362296-42F286C0-CA62-4C36-A270-9798563F0AF7Q34633646-F1D51BF4-40DB-4DDF-81CB-CE7F26380E9FQ34655398-DE536416-6EB7-46BF-BC27-6E0CC6C923F8Q34684856-116FBB86-5582-4268-BEE9-188B13A492DFQ35049371-05C61A8A-24D6-43C2-A5EA-D94033A0A80BQ35056716-67973FAE-7B49-4135-9721-ABCC8C9D4FC8Q35085521-A74503D7-1EEB-4BE3-81C7-CA481B10B575Q35605929-0948C143-83C9-4155-BBC9-138F71E0663EQ35653962-90CAFD7C-141B-4413-9703-B40793EA5D82Q36014539-AFF3790A-5399-49D0-B1B4-738A5EE68692Q36383352-AE7C7B64-5EFC-4C46-8771-4E45B8A95FFDQ36413036-83289983-4024-40E0-BB31-671B44710D02Q38518422-FEF58453-91D9-4859-A977-C95E0D0E10F3
P2860
description
2004 nî lūn-bûn
@nan
2004 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
name
Patterns of intron gain and loss in fungi
@ast
Patterns of intron gain and loss in fungi
@en
Patterns of intron gain and loss in fungi
@nl
type
label
Patterns of intron gain and loss in fungi
@ast
Patterns of intron gain and loss in fungi
@en
Patterns of intron gain and loss in fungi
@nl
prefLabel
Patterns of intron gain and loss in fungi
@ast
Patterns of intron gain and loss in fungi
@en
Patterns of intron gain and loss in fungi
@nl
P2860
P50
P1433
P1476
Patterns of intron gain and loss in fungi
@en
P2093
Christopher B Burge
Cydney B Nielsen
P2860
P356
10.1371/JOURNAL.PBIO.0020422
P407
P577
2004-12-01T00:00:00Z