about
Identification and analysis of functional elements in 1% of the human genome by the ENCODE pilot projectComposition and evolution of the vertebrate and mammalian selenoproteomesGenome-wide survey for biologically functional pseudogenesThe GENCODE pseudogene resourceRetrocopy contributions to the evolution of the human genomePseudogenes in the ENCODE regions: consensus annotation, analysis of transcription, and evolutionPseudogenes: pseudo-functional or key regulators in health and disease?The putatively functional Mkrn1-p1 pseudogene is neither expressed nor imprinted, nor does it regulate its source gene in transTranscribed processed pseudogenes in the human genome: an intermediate form of expressed retrosequence lacking protein-coding ability.Genome annotation of Anopheles gambiae using mass spectrometry-derived data.Expression of evolutionarily novel genes in tumorsControl of mucin-type O-glycosylation: a classification of the polypeptide GalNAc-transferase gene familyAn expanding universe of the non-coding genome in cancer biologyLong noncoding RNAs: past, present, and futureComparative genomic analysis of the arthropod muscle myosin heavy chain genes allows ancestral gene reconstruction and reveals a new type of 'partially' processed pseudogeneHMGA1-pseudogenes and cancerMechanisms and dynamics of orphan gene emergence in insect genomesBiochemistry and physiology within the framework of the extended synthesis of evolutionary biologyHMGA1-pseudogene overexpression contributes to cancer progressionNucleosome Organization around Pseudogenes in the Human GenomeA nuclear ribosomal DNA pseudogene in triatomines opens a new research field of fundamental and applied implications in Chagas diseaseThe persistent contributions of RNA to eukaryotic gen(om)e architecture and cellular functionHMGA1 pseudogenes as candidate proto-oncogenic competitive endogenous RNAsGenetic variation in taste receptor pseudogenes provides evidence for a dynamic role in human evolutionCharacterization of human pseudogene-derived non-coding RNAs for functional potentialNot so pseudo: the evolutionary history of protein phosphatase 1 regulatory subunit 2 and related pseudogenesHuman Transcriptome and Chromatin Modifications: An ENCODE PerspectiveA tiered hidden Markov model characterizes multi-scale chromatin statesSex bias in copy number variation of olfactory receptor gene family depends on ethnicityDetecting transcription of ribosomal protein pseudogenes in diverse human tissues from RNA-seq dataSystematic and evolutionary insights derived from mtDNA COI barcode diversity in the Decapoda (Crustacea: Malacostraca).Regional selection acting on the OFD1 gene familyComprehensive analysis of the pseudogenes of glycolytic enzymes in vertebrates: the anomalously high number of GAPDH pseudogenes highlights a recent burst of retrotrans-positional activityAssessing the genomic evidence for conserved transcribed pseudogenes under selectionThe population genetics of structural variationSmall RNAs originated from pseudogenes: cis- or trans-acting?Oncogenic activation of MAP kinase by BRAF pseudogene in thyroid tumorsFusion transcripts and transcribed retrotransposed loci discovered through comprehensive transcriptome analysis using Paired-End diTags (PETs)PseudoGeneQuest - service for identification of different pseudogene types in the human genomeExtreme primary and secondary protein structure variability in the chimeric male-transmitted cytochrome c oxidase subunit II protein in freshwater mussels: evidence for an elevated amino acid substitution rate in the face of domain-specific purifyin
P2860
Q21061203-C4EAF93C-EBF1-4168-8B44-D68AB8330C80Q21090938-08B0E42B-9E10-4144-A714-26936F03E797Q21145686-806FDCD8-D27D-448A-926C-AE4411AACC7FQ21183996-0F7E74CD-53C1-4832-9F1D-33EA105F40EEQ21263165-13BB8A4E-EF26-4F93-B205-BBB52536F868Q22065739-DFBAF41F-2DFA-45E9-88BD-A6F248AB53DBQ24613267-1C909812-1013-4CEA-9DB6-565A9432EA57Q24670569-DB0B7080-14C6-4BBA-AFC7-B4A72FD709F2Q24793813-74D9B3FA-F63D-4B59-B1CE-055270A5E675Q24816748-22BA9EF2-CB7E-4906-A78F-3DDC5C3C45BFQ26738894-257625F4-7480-4BD2-8447-88B0A473768AQ26864268-BD6B6518-5445-4F72-B6DA-A51663E363C5Q26865920-30E756D8-34EE-489E-87E2-F862B3ADC835Q26991873-298E762E-8E57-44DC-989B-3C4A3816C656Q27485436-9C661904-A4EB-474D-9A97-1BCFF74B59ACQ28072498-0C72C4C7-649F-4B1B-A78D-CA2B25D24ADCQ28284117-1B8F4B2F-0263-4951-AF25-04BF9F070388Q28601078-C2D034FD-B0D1-4953-8AE5-79B1E76A2B73Q28608654-E7A821C9-934E-4A99-948B-1C5753AAE467Q28647409-9BB7D786-5E8D-4788-AE1A-60CD725FD5C9Q28647637-FA3373E4-E16D-455A-9AF4-2E84624B17E6Q28652315-0FE0714A-B2B1-4566-815D-1746D303A1FEQ28652432-00D95F6E-83D3-4D74-B7C7-856DF46413F5Q28655551-44B8D563-0F7B-4789-B44A-887F7E7FFDA0Q28660423-7629DA22-B5F3-4AB3-8369-3DB739A30935Q28661447-0B17C812-04BA-4061-B0C1-B735394B6704Q28679909-E7E70A36-BF71-4E64-90F5-4FCAECE972DDQ28681689-37739CE8-AB60-4F59-B0A0-98D4C67DDB2CQ28703697-57ECED05-46E9-46AB-892A-96E27375BB97Q28716005-391411B1-E747-4675-B639-AF3B49D1059EQ28740291-305E8DDB-9C59-4923-8139-B0A88C0F8247Q28743873-557EBA8E-6D42-45F7-A961-678DD0774D33Q28750314-C9617A57-53BD-41D1-8464-F72B955A392BQ28751162-F7F08674-0CCA-4907-AD45-C3A1E0FF181BQ28752151-B35F07A8-7693-4DBB-A724-B790AF7FEB68Q28752303-A8359DC8-6B7E-49E5-8FC5-B57B377D61B8Q28756117-F836238F-F2F8-44F6-B6A7-FCB5285A6481Q28757561-5C90A8ED-BF38-43A0-A978-A84F9CFDF921Q28757758-04793FF3-CC3B-4024-9A8F-C16000AE5E37Q28757889-AC250565-DFD3-4305-86A6-55C7CE1CB9EA
P2860
description
2003 nî lūn-bûn
@nan
2003 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
name
Pseudogenes: Are They “Junk” or Functional DNA?
@ast
Pseudogenes: Are They “Junk” or Functional DNA?
@en
Pseudogenes: Are They “Junk” or Functional DNA?
@en-gb
Pseudogenes: Are They “Junk” or Functional DNA?
@nl
type
label
Pseudogenes: Are They “Junk” or Functional DNA?
@ast
Pseudogenes: Are They “Junk” or Functional DNA?
@en
Pseudogenes: Are They “Junk” or Functional DNA?
@en-gb
Pseudogenes: Are They “Junk” or Functional DNA?
@nl
altLabel
Pseudogenes: are they "junk" or functional DNA?
@en
prefLabel
Pseudogenes: Are They “Junk” or Functional DNA?
@ast
Pseudogenes: Are They “Junk” or Functional DNA?
@en
Pseudogenes: Are They “Junk” or Functional DNA?
@en-gb
Pseudogenes: Are They “Junk” or Functional DNA?
@nl
P3181
P1476
Pseudogenes: Are They “Junk” or Functional DNA?
@en
P2093
Evgeniy S. Balakirev
P304
P3181
P356
10.1146/ANNUREV.GENET.37.040103.103949
P407
P577
2003-12-01T00:00:00Z