Biology Reference
In-Depth Information
Torruella, G., Derelle, R., Paps, J., Lang, B. F., Roger, A. J., Shalchian-Tabrizi, K., et al.
(2012). Phylogenetic relationships within the Opisthokonta based on phylogenomic
analyses of conserved single-copy protein domains. Molecular Biology and Evolution , 29 ,
531-544.
Turrion-Gomez, J. L., Eslava, A. P., & Benito, E. P. (2010). The flavohemoglobin BCFHG1
is the main NO detoxification system and confers protection against nitrosative condi-
tions but is not a virulence factor in the fungal necrotroph Botrytis cinerea . Fungal Genetics
and Biology , 47 , 484-496.
Ullmann, B. D., Myers, H., Chiranand, W., Lazzell, A. L., Zhao, Q., Vega, L. A., et al.
(2004). Inducible defense mechanism against nitric oxide in Candida albicans . Eukaryotic
Cell , 3 , 715-723.
Unden, G., Becker, S., Bongaerts, J., Holighaus, G., Schirawski, J., & Six, S. (1995).
O 2 -sensing and O 2 -dependent gene regulation in facultatively anaerobic bacteria.
Archives of Microbiology , 164 , 81-90.
Usuki, I., Hino, A., & Ochiai, T. (1989). Reinvestigation of the hemoglobins from Param-
edium jenningsi , P. multimicronucleatum and P. caudatum . Comparative Biochemistry and Phys-
iology. Part B, Biochemistry & Molecular Biology , 93 , 555-559.
Vasudevan, S. G., Armarego, W. L., Shaw, D. C., Lilley, P. E., Dixon, N. E., & Poole, R. K.
(1991). Isolation and nucleotide sequence of the hmp gene that encodes a haemoglobin-
like protein in Escherichia coli K-12. Molecular and General Genetics , 226 , 49-58.
Vinogradov, S. N. (2008). Tracing globin phylogeny using PSIBLAST searches based on
groups of sequences. Methods in Enzymology , 436 , 571-583.
Vinogradov, S. N., Fernandez, I., Hoogewijs, D., & Arredondo-Peter, R. (2011). Phyloge-
netic relationships of 3/3 and 2/2 hemoglobins in Archaeplastida genomes to bacterial
and other eukaryote hemoglobins. Molecular Plant , 4 , 42-58.
Vinogradov, S. N., Hoogewijs, D., & Arredondo-Peter, R. (2011). What are the origins
and phylogeny of plant hemoglobins? Communicative and Integrative Biology , 4 , 443-445.
Vinogradov, S. N., Hoogewijs, D., Bailly, X., Arredondo-Peter, R., Gough, J., Dewilde, S.,
et al. (2006). A phylogenomic profile of globins. BMC Evolutionary Biology , 6 , 31.
Vinogradov, S. N., Hoogewijs, D., Bailly, X., Arredondo-Peter, R., Guertin, M., Gough, J.,
et al. (2005). Three globin lineages belonging to two structural classes in genomes from
the three kingdoms of life. Proceedings of the National Academy of Sciences of the United States
of America , 102 , 11385-11389.
Vinogradov, S. N., Hoogewijs, D., Bailly, X., Mizuguchi, K., Dewilde, S., Moens, L., et al.
(2007). A model of globin evolution. Gene , 398 , 132-142.
Vinogradov, S. N., Hoogewijs, D., Vanfleteren, J. R., Dewilde, S., Moens, L., &
Hankeln, T. (2011). Evolution of the globin superfamily and its function. In
M. Nagai (Ed.), Hemoglobin: Recent developments and topics (pp. 232-254). Kerala
(India): Research Signpost.
Vinogradov, S. N., & Moens, L. (2008). Diversity of globin function: Enzymatic, transport,
storage, and sensing. The Journal of Biological Chemistry , 283 , 8773-8777.
Vinogradov, S. N., Tinajero-Trejo, M., Poole, R. K., & Hoogewijs, D. (2013). Bacterial
and archaeal globins—A revised perspective. Biochimica et Biophysica Acta , 1834 ,
1789-1800.
Vuletich, D. A., & Lecomte, J. T. (2006). A phylogenetic and structural analysis of truncated
hemoglobins. Journal of Molecular Evolution , 62 , 196-210.
Wittenberg, J. B., Bolognesi, M., Wittenberg, B. A., & Guertin, M. (2002). Truncated
hemoglobins: A new family of hemoglobins widely distributed in bacteria, unicellular
eukaryotes, and plants. The Journal of Biological Chemistry , 277 , 871-874.
Woese, C. R., Kandler, O., &Wheelis, M. L. (1990). Towards a natural system of organisms:
Proposal for the domains Archaea, Bacteria, and Eucarya. Proceedings of the National Acad-
emy of Sciences of the United States of America , 87 , 4576-4579.
Previous Page
Next Page
Advances in Microbial Physiology
Search WWH ::




Custom Search
Home