New maximum likelihood estimators for eukaryotic intron evolution - Wikidata - wikimedia - TriplyDB

New maximum likelihood estimators for eukaryotic intron evolution

New maximum likelihood estimators for eukaryotic intron evolution

http://www.wikidata.org/entity/Q25256117

about

Comparative genomic analysis of fungal genomes reveals intron-rich ancestors Functional and evolutionary analysis of alternatively spliced genes is consistent with an early eukaryotic origin of alternative splicing Analysis of ribosomal protein gene structures: implications for intron evolution.A detailed history of intron-rich eukaryotic ancestors inferred from a global survey of 100 complete genomes Origin and evolution of spliceosomal introns Origins of human malaria: rare genomic changes and full mitochondrial genomes confirm the relationship of Plasmodium falciparum to other mammalian parasites but complicate the origins of Plasmodium vivax Spliceosomal introns as tools for genomic and evolutionary analysis Alternative splicing: a missing piece in the puzzle of intron gain A family of GFP-like proteins with different spectral properties in lancelet Branchiostoma floridae.A high density of ancient spliceosomal introns in oxymonad excavates.The origin of introns and their role in eukaryogenesis: a compromise solution to the introns-early versus introns-late debate?Phase distribution of spliceosomal introns: implications for intron origin.An overabundance of phase 0 introns immediately after the start codon in eukaryotic genes.Intron dynamics in ribosomal protein genes Three distinct modes of intron dynamics in the evolution of eukaryotes.Evolutionarily conserved genes preferentially accumulate introns.Patterns of intron gain and conservation in eukaryotic genes.Evolution of protein domain promiscuity in eukaryotes.Intron mis-splicing: no alternative?Malin: maximum likelihood analysis of intron evolution in eukaryotes.DNA double-strand break repair and the evolution of intron density.Evolutionary convergence on highly-conserved 3' intron structures in intron-poor eukaryotes and insights into the ancestral eukaryotic genome A maximum likelihood method for reconstruction of the evolution of eukaryotic gene structure Intron-dominated genomes of early ancestors of eukaryotes.Evolutionary dynamics of U12-type spliceosomal introns.Evolution of spliceosomal introns following endosymbiotic gene transfer.Origin of spliceosomal introns and alternative splicing Characterization of newly gained introns in Daphnia populations.MitoCOGs: clusters of orthologous genes from mitochondria and implications for the evolution of eukaryotes.Very little intron loss/gain in Plasmodium: intron loss/gain mutation rates and intron number.Novel Introner-Like Elements in fungi Are Involved in Parallel Gains of Spliceosomal Introns The function of introns.Widespread recurrent evolution of genomic features.Large-scale comparative analysis of splicing signals and their corresponding splicing factors in eukaryotes.Effects of taxon sampling in reconstructions of intron evolution Reverse transcriptase and intron number evolution Intron presence-absence polymorphisms in Daphnia Whence genes in pieces: reconstruction of the exon-intron gene structures of the last eukaryotic common ancestor and other ancestral eukaryotes.High rate of recent intron gain and loss in simultaneously duplicated Arabidopsis genes.Extensive, recent intron gains in Daphnia populations

P2860

Q21092873-0C3954A6-86A3-467B-9866-EB2D725972F8 Q21283935-CADE5C9B-8517-4AB0-92B1-B89F98523998 Q25257177-39FE9A15-6112-4EC0-B197-CE930B7DD079 Q27333080-04F74CA1-483B-4BB9-AC2C-EE3CC61BC66D Q27498824-374AB347-B29C-49AA-B0AC-CD9528DB8C55 Q28754565-EF69A3E8-B604-4855-BCF1-3B5ACF9FA0A5 Q28755266-F9E11F0B-0039-4EA3-8606-ED51F908DC9C Q28757865-7280B9FD-9728-4097-870E-F79983F8CEA2 Q30157649-4E5B251E-E982-406F-9AD2-FE59E0951733 Q33241069-E66E129B-5BE1-486A-A051-A79AAFA6E987 Q33253857-448364A5-8940-4C80-8552-AF60BCA7B1E9 Q33256762-7DB4B766-D4EB-433A-A4F8-B7CD0D55FC9A Q33260092-F1797A08-1EE5-4259-A925-39444857B921 Q33268348-21F93A03-2D6C-41BB-878B-2A83157FF138 Q33284336-8EA487B3-FBCE-4A1F-9A2E-5F30D88EAA6E Q33284338-D4FA0CE7-DE5F-4F33-B4AA-BFBE4C469589 Q33302571-D339D743-F106-4B70-83E5-175BDE0B99D3 Q33317131-899FE707-1245-4AB7-A667-C460C07BAC82 Q33321456-28A8A854-AD84-47CF-9051-200C5CB9EDDE Q33334015-B78EFD9E-C1C4-46D8-8644-98656E41ABAD Q33350157-CDC733D6-4F8F-4AF0-AF9E-A5519AE608EA Q33358666-2C27CA15-533B-48B3-BCAC-28C4391B69E1 Q33432894-D11C281D-1D26-4F73-B1C7-2B83AFD987BB Q33484110-CEA97766-4866-4801-B5D8-C0998876CC28 Q33531915-F3BBB94D-F220-487B-9406-C65D6BED59E1 Q33533635-6E9CF6A9-EE9F-4E45-9079-44502DBE58EF Q33653714-930CC378-6A19-4543-B352-15261D663A85 Q34366688-8886041A-BB88-43AC-A47D-AC1CB9856155 Q34636052-4335D4A1-A3A6-4E44-9380-524E30667A2C Q34655398-D406FF3F-B062-4336-8C63-2A3C4BFF25BA Q35653962-B261D906-DB63-4A8D-AD43-BE9A39D7E233 Q35886478-107CB7EF-654C-41B2-BD40-B1964F90A30E Q35930277-3FB5F2FF-CEB1-4090-929D-C3E05B97EF22 Q36259275-19A57B82-A998-48CD-B49D-3FC0F6F13E95 Q36825597-30E28E48-B2FC-4510-91D6-31F48E850370 Q37043759-661B328E-94D1-4ECB-AB9D-38CC4D1B030D Q37306548-0A3A42B9-05F8-4337-B823-283D0E4FF5BB Q38058756-88ECF9EE-DE65-4A4A-A2CA-5A1FA3929727 Q38518422-49F34DAA-AFAD-4136-9F77-7571C6A27BCC Q41809804-8B8544E2-885D-4683-9D44-B94E8D9A71FC

P2860

New maximum likelihood estimators for eukaryotic intron evolution

http://www.wikidata.org/entity/Q25256117

description

2005 nî lūn-bûn

@nan

2005 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած

@hyw

2005 թվականի դեկտեմբերին հրատարակված գիտական հոդված

@hy

2005年の論文

@ja

2005年論文

@yue

2005年論文

@zh-hant

2005年論文

@zh-hk

2005年論文

@zh-mo

2005年論文

@zh-tw

2005年论文

@wuu

name

New maximum likelihood estimators for eukaryotic intron evolution

@ast

New maximum likelihood estimators for eukaryotic intron evolution

@en

New maximum likelihood estimators for eukaryotic intron evolution

@nl

type

label

New maximum likelihood estimators for eukaryotic intron evolution

@ast

New maximum likelihood estimators for eukaryotic intron evolution

@en

New maximum likelihood estimators for eukaryotic intron evolution

@nl

prefLabel

New maximum likelihood estimators for eukaryotic intron evolution

@ast

New maximum likelihood estimators for eukaryotic intron evolution

@en

New maximum likelihood estimators for eukaryotic intron evolution

@nl

P1433

Q25256117-A35C5C38-26E4-4B9F-8B83-DA81F076DAFF

P1476

Q25256117-C21B02E0-1524-497E-903E-1AB5B23F1199

P2093

Q25256117-434F69E1-3FE6-4F64-83DB-90ABC1D99C94

Q25256117-5AE95878-41AD-4E38-9464-AE44E8C5E11E

Q25256117-9D79E360-7B31-4D6B-BB66-A6FB6BB388AD

P2860

Q25256117-01E62410-26FF-44DC-B9FE-4CDE536979B5

Q25256117-0D026B0E-38CF-4FE2-BE1D-1B2AF48E6943

Q25256117-1A6D8999-B777-45A3-9E09-03A6D0C92B14

Q25256117-1ED3C5C9-924E-40DA-8D56-69A857ADF257

Q25256117-232CDB0D-9B9B-483F-BA28-9390727CF206

Q25256117-28DCAF37-F296-4FB8-BD6F-2DA4BE0AA90D

Q25256117-31A6BBFA-F314-48A2-B061-0DADF45D571D

Q25256117-41C95B01-2216-4B71-AEDC-2B51A3191BA9

Q25256117-5D9E3D0B-FAA7-44E8-B239-5B9EE51558CB

Q25256117-636F9D79-5451-4AD6-83E4-46B42619D952

P304

Q25256117-018D4EEF-ED3F-44BB-90F1-2D23762C5B41

P31

Q25256117-18DAC618-13B9-4AD4-9814-0E79487342EB

P356

Q25256117-298AED27-0C30-44F3-AA5F-2CC0FEF7B18D

P407

Q25256117-680844D6-40B5-42CB-94DF-A72B477B0638

P433

Q25256117-7AFBABDE-0ACE-4C4F-98D2-2BF9A725F006

P478

Q25256117-55AF0EE4-53FB-4AE6-A742-717353C18E56

P577

Q25256117-44444314-14DC-42C7-A382-3ACA362B2D80

P5875

Q25256117-FE643A77-2CCE-4B42-B2C6-BDA551564964

P698

Q25256117-1893288F-0CFC-4B01-9CC0-D035DA094A1D

P932

Q25256117-9A4D06FA-30B4-4ED9-B8C6-8032CAD7E48E

P356

JOURNAL.PCBI.0010079

P1433

PLOS Computational Biology

P1476

New maximum likelihood estimators for eukaryotic intron evolution

@en

P2093

Hung D Nguyen

http://www.w3.org/2001/XMLSchema#string

Maki Yoshihama

http://www.w3.org/2001/XMLSchema#string

Naoya Kenmochi

http://www.w3.org/2001/XMLSchema#string

P2860

The human ribosomal protein genes: sequencing and comparative analysis of 73 genes

Patterns of intron gain and loss in fungi

Conservation versus parallel gains in intron evolution

Correlation of DNA exonic regions with protein structural units in haemoglobin

Why genes in pieces?

The recent origins of spliceosomal introns revisited.

Remarkable interkingdom conservation of intron positions and massive, lineage-specific intron loss and gain in eukaryotic evolution.

Reconstruction of ancestral protosplice sites.

Complex early genes

Resolution of a deep animal divergence by the pattern of intron conservation.

P304

e79

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1371/JOURNAL.PCBI.0010079

http://www.w3.org/2001/XMLSchema#string

P407

P433

7

http://www.w3.org/2001/XMLSchema#string

P478

1

http://www.w3.org/2001/XMLSchema#string

P577

2005-12-30T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

7382688

http://www.w3.org/2001/XMLSchema#string

P698

16389300

http://www.w3.org/2001/XMLSchema#string

P932

1323467

http://www.w3.org/2001/XMLSchema#string