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Legrain, P., Wojcik, J. and Gauthier, J. M. (2001). Protein-protein interaction maps: a lead towards
cellular functions,
Trends Genet.
, 17, pp. 346-52.
Lemke, N., Herédia, F., Barcellos, C. K., dos Reis, A. N. and Mombach, J. C. M. (2004).
Essentiality and damage in metabolic network,
Bioinformatics
, 20, pp. 115-119.
Luscombe, N. M., Babu, M. M., Yu, H., Snyder, M., Teichmann, S. A. and Gerstein, M. (2004).
Genomic analysis of regulatory network dynamics reveals large topological changes,
Nature
,
431, pp. 308-312.
Ma, H. W. and Zeng, A. P. (2003). Reconstruction of metabolic networks from genome data and
analysis of their global structure for various organisms,
Bioinformatics
, 19, pp. 270-277.
Ma, H. W. and Zeng, A. P. (2003). The connectivity structure, giant strong component and
centrality of metabolic networks,
Bioinformatics
, 19, pp. 1423-1430.
Ma, H. W., Zhao, X. M., Yuan, Y. J. and Zeng, A. P. (2004) Decomposition of metabolic network
into functional modules based on the global connectivity structure of reaction graph.
Bioinformatics 20, 1870-1876.
Mangan, S. and Alon, U. (2003). Structure and function of the feed-forward loop network motif.
Proc. Natl. Acad. Sci. USA
, 100, pp. 11980-5.
Masuda, C. A, Xavier, M. A., Mattos, K. A., Galina, A. and Montero-Lomelì, M. (2001).
Phosphoglucomutase is an
in vivo
lithium target in yeast,
J. Biol. Chem.
, 276, pp. 37794-
37801.
McAlister, L. and Holland, M. J. (1985). Differential expression of the three yeast glyceraldehyde-
3-phosphate dehydrogenase genes,
J. Biol. Chem.
, 260, pp. 15019-15027.
McAlister, L. and Holland, M. J. (1985). Isolation and characterization of yeast strains carring
mutations in the glyceraldehyde-3-phosphate dehydrogenase gene,
J. Biol. Chem.
, 260,
pp. 15013-15018.
McMahon, S. M., Miller, K. H. and Drake, J. (2001) Networking tips fpr social scientists and
ecologists,
Science
, 293, pp. 1604-1605.
McNeil, J. B., Bognar, A. L. and Pearlman, R. E. (1996).
In vivo
analysis of folate coenzymes and
their compartmentation in
Saccharomyces cerevisiae
,
Genetics
, 142, pp. 371-381.
McNeil, J. B., McIntosh, E. M., Taylor, B. V., Zhang, F.-R., Tangs, S., and Bognar, A. L. (1994).
Cloning and molecular characterization of three genes, including two genes encoding serine
hydroxymethyltransferases, whose inactivation is required to render yeast auxotrophic for
glycine,
J. Biol. Chem.
, 269, pp. 9155-9165.
McNeil, J. B., Zhang, F.-R., Taylor, B. V., Sinclair, D. A., Pearlman, R. E. and Bognar, A. L.
(1997). Cloning, and molecular characterization of the GCV1 gene encoding the glycine
cleavage T-protein from
Saccharomyces cerevisiae
,
Gene
, 186, pp. 13-20.
Mehler, M. F. and Mattick, J. S. (2007). Noncoding RNAs and RNA editing in brain development,
functional diversification, and neurological disease,
Physiol. Rev.
, 87, pp. 799-823.
Monschau, N., Stahmann, K. P., Sahm, H., McNeil, J. B. and Bognar, A. L. (1997). Identification
of
Saccharomyces cerevisiae
GLY1 as a threonine aldolase: a key enzyme in glycine
biosynthesis,
FEMS Microbiol. Lett.
, 150, pp. 55-60.
Mulquiney, P. J., Bubb, W. A. and Kuchel, P. W. (1999). Model of 2,3-biphosphoglycerate
metabolism in the human erythrocyte based on detailed enzyme kinetic equations: in vivo
kinetic characterization of 2,3-biphosphoglycerate synthase/phosphatase using
13
C and
31
P
NMR,
Biochem. J.
, 342, pp. 567-80.
Mulquiney, P. J. and Kuchel, P. W. (1999). Model of 2,3-biphosphoglycerate metabolism in the
human erythrocyte based on detailed enzyme kinetic equations: equations and parameter
refinement,
Biochem. J.
, 342, pp. 581-96.
