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The choice of sequence homologs included in multiple sequence alignments has a dramatic impact on evolutionary conservation analysis
Nelson Gil,
Andras Fiser
Systems & Computational Biology
Montefiore Einstein Cancer Center
Research output
:
Contribution to journal
›
Article
›
peer-review
10
Scopus citations
Overview
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Dive into the research topics of 'The choice of sequence homologs included in multiple sequence alignments has a dramatic impact on evolutionary conservation analysis'. Together they form a unique fingerprint.
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Mathematics
Multiple Sequence Alignment
100%
Conservation
63%
Protein
43%
Prediction
25%
Performance
18%
False Positive
13%
Mutual Information
12%
Alignment
12%
Machine Learning
11%
Information Theory
11%
Doubling
11%
Predict
9%
Proportion
9%
Medicine & Life Sciences
Sequence Alignment
76%
Sequence Homology
69%
Binding Sites
16%
Information Theory
15%
Machine Learning
11%
Proteins
11%
Sequence Analysis
9%
Carrier Proteins
8%
Direction compound
7%
Ligands
7%
Engineering & Materials Science
Conservation
60%
Binding sites
25%
Proteins
24%
Carrier Proteins
14%
Ligands
11%
Surveying
10%
Information theory
10%
Machine learning
6%
Sampling
6%
Chemical Compounds
Protein
26%
Functional Site
22%
Binding Site
22%
Sampling
13%