<--- Back to Details
First PageDocument Content
Protein structure / Mathematical and theoretical biology / Protein domains / Molecular modelling / Bioinformatics / Anisotropic Network Model / STING / Structural alignment / Dihydrofolate reductase / Biology / Science / Chemistry
Protein structure
Mathematical and theoretical biology
Protein domains
Molecular modelling
Bioinformatics
Anisotropic Network Model
STING
Structural alignment
Dihydrofolate reductase
Biology
Science
Chemistry

Integrating protein structural dynamics and evolutionary analysis with Bio3D

Add to Reading List

Source URL: www.biomedcentral.com

Download Document from Source Website

File Size: 2,16 MB

Share Document on Facebook

Similar Documents

Incorporating Structural Alignment Biases into an Attentional Neural Translation Model arXiv:1601.01085v1 [cs.CL] 6 JanTrevor Cohn and Cong Duy Vu Hoang and Ekaterina Vymolova

DocID: 1sCP2 - View Document

Bioinformatics / Biology / Computational phylogenetics / Protein methods / Matrices / Protein structure / Sequence alignment / Substitution matrix / Multiple sequence alignment / BLOSUM / Protein structure prediction / Structural alignment

Vol. 1 noPages 1–1 BIOINFORMATICS Using an alignment of fragment strings for

DocID: 1rf1l - View Document

Biology / Bioinformatics / Protein structure / Computational phylogenetics / Nucleic acids / Solvents / Nucleic acid sequence / Substitution matrix / Sequence alignment / Protein domain / STING / Solvent exposure

Local Packing Density Is the Main Structural Determinant of the Rate of Protein Sequence Evolution at Site Level

DocID: 1r1l9 - View Document

Computational phylogenetics / Bioinformatics / Biology / Multiple sequence alignment / Sequence alignment / Phylogenetic tree / Maximum parsimony / Structural alignment / Protein superfamily / Clustal / Phylo / BAli-Phy

1 Large-scale multiple sequence alignment and phylogeny estimation Tandy Warnow1,∗ 1 Department of Computer Science, University of Texas at Austin, Austin,

DocID: 1qTU4 - View Document

Bioinformatics / Biology / Computational phylogenetics / Genetics / Sequence alignment / Multiple sequence alignment / Sequence analysis / Nucleic acid sequence / Dynamic programming / Phylo / Sequence motif / Nucleic acid structure prediction

Genome Informatics 12: 184–A Mini-Greedy Algorithm for Faster Structural RNA Stem-Loop Search

DocID: 1q7MX - View Document