The dominance of the population by a selected few: power-law behaviour applies to a wide variety of genomic properties - Wikidata - wikimedia - TriplyDB

The dominance of the population by a selected few: power-law behaviour applies to a wide variety of genomic properties

The dominance of the population by a selected few: power-law behaviour applies to a wide variety of genomic properties

http://www.wikidata.org/entity/Q24802537

about

Structural characterization of genomes by large scale sequence-structure threading: application of reliability analysis in structural genomics Birth and death of protein domains: a simple model of evolution explains power law behavior.Progress towards mapping the universe of protein folds Structural characterization of genomes by large scale sequence-structure threading Gene family evolution: an in-depth theoretical and simulation analysis of non-linear birth-death-innovation models C. elegans VANG-1 modulates life span via insulin/IGF-1-like signaling Size distribution of function-based human gene sets and the split-merge model New insights into the evolutionary rate of hepatitis B virus at different biological scales Mapping small molecule binding data to structural domains The evolution of domain-content in bacterial genomes Millions of years of evolution preserved: a comprehensive catalog of the processed pseudogenes in the human genome Structural diversity of protein segments follows a power-law distribution On theoretical models of gene expression evolution with random genetic drift and natural selection Two different classes of co-occurring motif pairs found by a novel visualization method in human promoter regions Evidence for large complex networks of plant short silencing RNAs.Scaling properties of protein family phylogenies Algebraic distribution of segmental duplication lengths in whole-genome sequence self-alignments UniRef clusters: a comprehensive and scalable alternative for improving sequence similarity searches.A full bayesian approach for boolean genetic network inference.The mode and tempo of genome size evolution in eukaryotes.Env-less endogenous retroviruses are genomic superspreaders Patterns of nucleotide substitution, insertion and deletion in the human genome inferred from pseudogenes Domain mobility in proteins: functional and evolutionary implications.Large-scale dynamics of horizontal transfers.TopNet: a tool for comparing biological sub-networks, correlating protein properties with topological statistics.Global organization of a binding site network gives insight into evolution and structure-function relationships of proteins.Nucleotide-resolution profiling of RNA recombination in the encapsidated genome of a eukaryotic RNA virus by next-generation sequencing.Duplication count distributions in DNA sequences Fractal topology of gene promoter networks at phase transitions.Exploring biotic interactions within protist cell populations using network methods.Finite-size effects in transcript sequencing count distribution: its power-law correction necessarily precedes downstream normalization and comparative analysis.Beyond Gaussian averages: redirecting international business and management research toward extreme events and power laws Horizontal gene transfers as metagenomic gene duplications

P2860

Q24796096-A4B4F890-6CDD-424E-9633-665B79D2DEEC Q24799758-2C632891-25AA-48AA-83E4-5BABE0915746 Q24801216-5D10E0B6-45DC-4567-9734-0538A23C3FA1 Q24802710-8F9A56B3-C8C9-4DF1-8682-01B13C3816A3 Q24802795-C238163A-078D-40E1-AD03-F02D19EF5649 Q27308714-B23BC34B-C0F7-43D9-A359-1001174F2276 Q28595808-A75AB257-2100-4A66-A273-3F023E773E3A Q28649472-92E4625B-1AD1-4C34-A379-A4508168D547 Q28710345-197D1D97-A3DE-491C-9D40-0C39862A0D13 Q28755842-E4E008CB-6659-424D-BFE6-FCC023CDC995 Q28775887-27178CE3-BA5B-4E61-A135-6F37D47F4AA3 Q30354608-3C2B14B5-F91D-48B9-B550-D3E62E179E67 Q30912770-D2815EF3-4764-446F-833E-254DDB883D22 Q33321979-E3FB72E7-C5D6-4D90-90FF-AC4DF8D89528 Q33548690-44B3CB99-7363-49AC-94BB-DF7437C65BE3 Q33924500-44B3796C-9A03-4C33-A1D9-D10754A8DAC8 Q33968013-85D95F86-51EB-4E6A-835A-8828AA713068 Q34447998-12A4191D-F9A7-467D-95AC-4FB73FEB0E08 Q35536571-B7370C24-A675-43F0-A39E-2E3266633DEF Q35757863-17E73474-AEA7-41AD-94CB-C87F299384D5 Q35982916-823F00C8-DE6E-4760-BE4C-4E3AB879F709 Q36079385-12852EAF-11DE-4740-9A7F-F5D9A4C65F0F Q37294569-039BB1B1-E7B0-4E85-8CF6-1F10E263381D Q39537608-8F8FFA74-998B-47FC-BDC9-2B320F82504B Q40695124-7E02F218-6316-4173-AB83-876685334EA4 Q41049584-29F8EB12-A66E-4BBB-AE6B-7A57B3569B2C Q41615371-2710D9FE-99CA-4A29-A44D-C9A0E5B4B3FE Q42117447-445143B2-DF69-4169-8BD7-04F82C9B3F5E Q42557767-9AF03BA8-7F62-40C0-8EFB-604CFFB8B75A Q42648384-471DE8AC-63F4-4634-84E8-AAA48BAEFD1E Q49200617-439FEC23-ECE2-42BA-9829-AD9878398598 Q56059707-AE9963BF-FB43-4957-9B0A-69A7E8B82AB7 Q57251599-3465B4AB-BEE5-41B0-A76C-831ACC616067

P2860

The dominance of the population by a selected few: power-law behaviour applies to a wide variety of genomic properties

http://www.wikidata.org/entity/Q24802537

description

2002 nî lūn-bûn

@nan

2002 թուականի Յուլիսին հրատարակուած գիտական յօդուած

@hyw

2002 թվականի հուլիսին հրատարակված գիտական հոդված

@hy

2002年の論文

@ja

2002年論文

@yue

2002年論文

@zh-hant

2002年論文

@zh-hk

2002年論文

@zh-mo

2002年論文

@zh-tw

2002年论文

@wuu

name

The dominance of the populatio ...... variety of genomic properties

@ast

The dominance of the populatio ...... variety of genomic properties

@en

The dominance of the populatio ...... variety of genomic properties

@nl

type

label

The dominance of the populatio ...... variety of genomic properties

@ast

The dominance of the populatio ...... variety of genomic properties

@en

The dominance of the populatio ...... variety of genomic properties

@nl

prefLabel

The dominance of the populatio ...... variety of genomic properties

@ast

The dominance of the populatio ...... variety of genomic properties

@en

The dominance of the populatio ...... variety of genomic properties

@nl

P1433

Q24802537-68A00653-B98E-4EBA-91EE-31F491255CFE

P1476

Q24802537-7B8AC9BC-CF3E-4D9E-A647-4CBB099DE6C3

P2093

Q24802537-30AFC51A-A993-4E7D-988D-EFCD7849F377

Q24802537-4267682B-6C8C-4A93-89FB-24F68C924663

Q24802537-92183056-FC0E-44FD-B8FE-234B76D65D6F

Q24802537-9C6EBB1B-18F4-4745-B698-CA7279BEC91A

P2860

Q24802537-105D16CF-3ABA-446D-B2EF-68048E484ABF

Q24802537-1633E994-955B-4D51-B515-49057E15DDA3

Q24802537-1CEEA488-E0FD-4A7E-B151-722725D7C811

Q24802537-22762DB3-08CB-465A-AA2A-3AAE2EF0BF9F

Q24802537-2947E8BB-C1EB-4ECA-A77A-62B0362D0363

Q24802537-321D975B-8C35-4EE5-AC06-F6B4924821E2

Q24802537-3E63C0CF-11D4-4280-9BEE-DB04BCF203B5

Q24802537-5BB79A14-4646-4C68-BAEA-E54442130C6C

Q24802537-5F32B7D6-9011-40C2-8B3E-E4C4B5B6A35D

Q24802537-74F8F270-BE28-4FB8-BB8F-37595902C487

P2888

Q24802537-40439B8E-7486-4A87-A78F-AE07739F7479

P304

Q24802537-B0165A86-68D5-44A1-AED4-A82B4E7273E7

P31

Q24802537-62C057C4-D5CD-4739-B1CF-D794B24CDC79

P3181

Q24802537-04EF8FA4-0543-460D-9788-F74C721D6357

P356

Q24802537-027102DA-F1F2-4982-AD90-8DD79BE41057

P407

Q24802537-7EE58F49-5A13-4D2C-9A55-136905E6767C

P433

Q24802537-15414AC7-1BC7-4434-BF07-3D733BEF6A1C

P478

Q24802537-F8C28FAE-82D1-497D-A077-F98D09AADD5B

P50

Q24802537-AFE473FF-618C-4AB4-8CA3-B5D4E0945AA7

P577

Q24802537-57532E2F-3C13-41B2-BDC4-449B24E377D9

P5875

Q24802537-A0CB350A-C6E7-4D7C-AF06-4670484669B6

P6179

Q24802537-409137A6-C018-4794-8F75-0F66E042C832

P698

Q24802537-26E2BD97-88B1-4A84-8E6B-3D3D9CC0E0EC

P932

Q24802537-45A211D2-66C0-491C-ABF2-7D906817B352

P3181

P356

GB-2002-3-8-RESEARCH0040

P1433

P1476

The dominance of the populatio ...... variety of genomic properties

@en

P2093

Jiang Qian

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

Nicholas M Luscombe

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

Ted Johnson

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

Zhaolei Zhang

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

P2860

Molecular fossils in the human genome: identification and analysis of the pseudogenes in chromosomes 21 and 22

Emergence of Scaling in Random Networks

The InterPro database, an integrated documentation resource for protein families, domains and functional sites

The relationship between protein structure and function: a comprehensive survey with application to the yeast genome

Error and attack tolerance of complex networks

Assignment of homology to genome sequences using a library of hidden Markov models that represent all proteins of known structure

The large-scale organization of metabolic networks

Analysis of the yeast transcriptome with structural and functional categories: characterizing highly expressed proteins

Evolution of function in protein superfamilies, from a structural perspective.

A structural census of genomes: comparing bacterial, eukaryotic, and archaeal genomes in terms of protein structure.

P2888

gb-2002-3-8-research0040

P304

RESEARCH0040

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

P31

scholarly article

P3181

4139373

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

P356

10.1186/GB-2002-3-8-RESEARCH0040

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

P407

P433

8

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

P478

3

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

P50

Mark Bender Gerstein

P577

2002-07-25T00:00:00Z

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

P5875

11200241

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

P6179

1039644860

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

P698

12186647

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

P932

126234

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