E M Marcotte
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Explore the profile of E M Marcotte including associated specialties, affiliations and a list of published articles.
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19
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Recent Articles
11.
Marcotte E, Pellegrini M, Thompson M, Yeates T, Eisenberg D
Nature
. 1999 Nov;
402(6757):83-6.
PMID: 10573421
The availability of over 20 fully sequenced genomes has driven the development of new methods to find protein function and interactions. Here we group proteins by correlated evolution, correlated messenger...
12.
Marcotte E, Pellegrini M, Yeates T, Eisenberg D
J Mol Biol
. 1999 Oct;
293(1):151-60.
PMID: 10512723
In this study, we analyzed all known protein sequences for repeating amino acid segments. Although duplicated sequence segments occur in 14 % of all proteins, eukaryotic proteins are three times...
13.
Marcotte E, Pellegrini M, Ng H, Rice D, Yeates T, Eisenberg D
Science
. 1999 Jul;
285(5428):751-3.
PMID: 10427000
A computational method is proposed for inferring protein interactions from genome sequences on the basis of the observation that some pairs of interacting proteins have homologs in another organism fused...
14.
Pellegrini M, Marcotte E, Yeates T
Proteins
. 1999 Jun;
35(4):440-6.
PMID: 10382671
We present a fast algorithm to search for repeating fragments within protein sequences. The technique is based on an extension of the Smith-Waterman algorithm that allows the calculation of sub-optimal...
15.
Pellegrini M, Marcotte E, Thompson M, Eisenberg D, Yeates T
Proc Natl Acad Sci U S A
. 1999 Apr;
96(8):4285-8.
PMID: 10200254
Determining protein functions from genomic sequences is a central goal of bioinformatics. We present a method based on the assumption that proteins that function together in a pathway or structural...
16.
Marcotte E, Eisenberg D
Biochemistry
. 1999 Jan;
38(2):667-76.
PMID: 9888807
Prion-linked diseases, such as mad cow disease, scrapie, and the human genetic disorder Creutzfeldt-Jakob disease, are fatal neurodegenerative diseases correlated with changes in the secondary structure of neural prion protein....
17.
Robertus J, Monzingo A, Marcotte E, Hart P
J Exp Zool
. 1998 Sep;
282(1-2):127-32.
PMID: 9723170
We have solved the X-ray structure of barley chitinase and bacterial chitosanase. Structural constraints predicted these would work by an inverting mechanism, which has been confirmed biochemically. The two enzymes...
18.
Marcotte E, Monzingo A, Ernst S, Brzezinski R, Robertus J
Nat Struct Biol
. 1996 Feb;
3(2):155-62.
PMID: 8564542
We report the 2.4 A X-ray crystal structure of a protein with chitosan endo-hydrolase activity isolated from Streptomyces N174. The structure was solved using phases acquired by SIRAS from a...
19.
Monzingo A, Marcotte E, Hart P, Robertus J
Nat Struct Biol
. 1996 Feb;
3(2):133-40.
PMID: 8564539
Barley chitinase, bacterial chitosanase, and lysozymes from goose (GEWL), phage (T4L) and hen (HEWL) all hydrolyse related polysaccharides. The proteins share no significant amino-acid similarities, but have a structurally invariant...