about
Towards a comprehensive structural coverage of completed genomes: a structural genomics viewpointTaxonomic distribution of large DNA viruses in the seaCLUSTAL W: improving the sensitivity of progressive multiple sequence alignment through sequence weighting, position-specific gap penalties and weight matrix choiceThe genome of Melanoplus sanguinipes entomopoxvirusACRATA: a novel electron transfer domain associated to apoptosis and cancerSequence context-specific profiles for homology searchingMembrane protein prediction methodsGenomic analysis of membrane protein families: abundance and conserved motifsComprehensive genome analysis of 203 genomes provides structural genomics with new insights into protein family spaceMAFFT Multiple Sequence Alignment Software Version 7: Improvements in Performance and UsabilityHeterotachy, an important process of protein evolutionDiscriminative modelling of context-specific amino acid substitution probabilitiesAn interactive visualization tool to explore the biophysical properties of amino acids and their contribution to substitution matricesStructure alignment of membrane proteins: Accuracy of available tools and a consensus strategySequence-structure relationship study in all-α transmembrane proteins using an unsupervised learning approach.Comparing models of evolution for ordered and disordered proteins.Integrating mutation data and structural analysis of the TP53 tumor-suppressor protein.Who Let the CAT Out of the Bag? Accurately Dealing with Substitutional Heterogeneity in Phylogenomic Analyses.Phylogenetic signal and functional categories in Proteobacteria genomes.Modeling HIV quasispecies evolutionary dynamics.Horizontal gene transfer and nucleotide compositional anomaly in large DNA viruses.Geometric aspects of biological sequence comparison.Pyoverdine synthesis by the Mn(II)-oxidizing bacterium Pseudomonas putida GB-1.Driving forces for transmembrane alpha-helix oligomerization.Evolution of amino acid frequencies in proteins over deep time: inferred order of introduction of amino acids into the genetic code.Domain enhanced lookup time accelerated BLAST.Bios2mds: an R package for comparing orthologous protein families by metric multidimensional scaling.Comparison of class A and D G protein-coupled receptors: common features in structure and activation.Protein disorder and short conserved motifs in disordered regions are enriched near the cytoplasmic side of single-pass transmembrane proteinsPolar residues drive association of polyleucine transmembrane helicesAssessing the impact of secondary structure and solvent accessibility on protein evolution.Towards improved quality of GPCR models by usage of multiple templates and profile-profile comparisonAnalysis of the evolutionary forces shaping mitochondrial genomes of a Neotropical malaria vector complex.Alignment of helical membrane protein sequences using AlignMeOn the accuracy of homology modeling and sequence alignment methods applied to membrane proteinsTHGS: a web-based database of Transmembrane Helices in Genome SequencesNatural variation in human membrane transporter genes reveals evolutionary and functional constraintsCaste-specific expression patterns of immune response and chemosensory related genes in the leaf-cutting ant, Atta vollenweideriCharacterization and inference of gene gain/loss along burkholderia evolutionary history.Streptophyte phytochromes exhibit an N-terminus of cyanobacterial origin and a C-terminus of proteobacterial origin.
P2860
Q21284214-268F67A2-61B7-4C9D-B7FB-2C416B51ACD9Q23067972-BCF2E40A-30FC-4733-A9EA-CB5151568A7EQ24286950-473AC1BB-B680-4CA5-915B-B5843353C8F7Q24516950-818B7298-151D-4CDA-8F89-84405E077BBEQ24557443-8F771664-1E8A-4B2C-B925-D294B4131A9BQ24650356-9841517B-AEDF-4251-AA76-DC204190D001Q24683612-D0578124-4B4F-405B-8251-59FE92140B77Q24794492-0FED68E9-F9E6-4C02-AEE3-FEC2266BFFF5Q25255960-7AEC1F8E-152F-40AA-A402-CAD16D31534FQ27860817-48433EA9-7ECB-4FAF-A043-AAA826EB6E1FQ28212928-D77C31AE-F7E2-43E5-ACCF-BC2BE89B780CQ28277465-E1FE5890-9A01-427C-88E7-3D89876564FBQ28768260-853D832A-707D-478F-9B71-B0C6D7C49897Q30152895-7FCE3F54-68BC-4CB8-AF1E-BBCCDF551A41Q30375311-576D57CE-EE76-4639-B129-1442396B3358Q30382652-1DDA4CC4-1C11-4D99-94AC-450CC0E745A5Q30670267-2DC648E2-BA48-4F5A-9BE3-1D8B43B241CCQ31131025-8D536FC1-40AE-4DE7-A8AF-E76953136C9EQ33272850-0BF873C1-F0CA-4AFB-AA0E-128F86B1F8E4Q33296550-C7A0F759-82FD-4A27-A710-905B6D589317Q33309492-B8F19DE8-5908-4B76-B4AA-F207A1A4C3C7Q33429253-73034382-CDA0-4D15-AC95-5FB340DF91BFQ33606013-D0975D6B-5D4B-487D-8EA5-8E0CA4CE9608Q33954295-38738340-99C6-4E34-9FAB-2614F2340ECDQ33961546-9464A11B-3571-4B2F-965C-FC53E6E12483Q34236167-51452B40-A302-42BC-A56E-F24EC77DD281Q34306050-6FBD4770-1978-42AC-8CD4-FAABEA90C127Q34407135-6F2AC180-448E-4D48-8BFF-990AEA2E8200Q34409863-2D58EBE7-241C-4F2B-8A0B-FAE197261180Q34449670-D774C0FB-EECA-4368-8E6F-1747B46A424BQ34604178-E43FCDD1-88F9-4D70-A2E7-180EA2BA5C1DQ34611560-68F34B0A-4F2E-4B3A-A893-D3082C88A27AQ34612719-BD1685A9-A2C5-4831-952A-ABC3FC6F640EQ34613194-40C3F6B1-2341-47D9-9544-562C3ECC4AF9Q34698551-71DC9F74-0365-44E0-BE7A-04F7325C09AAQ34938424-D22CE15C-7E50-42E9-8BE6-20AC1AEF1473Q35022362-E8F2D3E5-71A8-46BD-A4D1-4338AC4F711FQ35049568-5EF8C309-632D-473D-ABB4-98E246CDAD56Q35535004-66330AB4-4F42-4D6C-A7E9-485B6640FEF5Q35606396-F7E4A5D2-8D81-40AC-9126-A2B032F0BB1D
P2860
description
1994 nî lūn-bûn
@nan
1994年の論文
@ja
1994年論文
@yue
1994年論文
@zh-hant
1994年論文
@zh-hk
1994年論文
@zh-mo
1994年論文
@zh-tw
1994年论文
@wuu
1994年论文
@zh
1994年论文
@zh-cn
name
A mutation data matrix for transmembrane proteins.
@ast
A mutation data matrix for transmembrane proteins.
@en
type
label
A mutation data matrix for transmembrane proteins.
@ast
A mutation data matrix for transmembrane proteins.
@en
prefLabel
A mutation data matrix for transmembrane proteins.
@ast
A mutation data matrix for transmembrane proteins.
@en
P2860
P1433
P1476
A mutation data matrix for transmembrane proteins.
@en
P2093
P2860
P304
P356
10.1016/0014-5793(94)80429-X
P407
P577
1994-02-01T00:00:00Z