By Robert K. Poole
First released in 1967, Advances in Microbial body structure is one among Elsevier's most famous and acclaimed sequence. Now edited through Professor Robert Poole, collage of Sheffield, Advances in Microbial body structure maintains to submit topical and critical studies, reading body structure in its broadest context, to incorporate all fabric that contributes to our knowing of ways microorganisms and their part elements paintings. themes comprise: * Glutathione, Altruistic Metabolite in Fungi * The function of the Flavodiiron Proteins in Microbial Nitric Oxide cleansing * rigidity Responsive micro organism: Biosensors as Environmental screens * Bacterial Na+ -or H+ - coupled ATP working at low electrochemical power * Dissimiatory Fe(III) and Mn(IV) relief
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2001). 3) can also trigger oxidative stress by increasing ROS production and/or depleting the intracellular GSH pool. g. , 2002) stress. , 1997). , 2003). , 2001). Last but not least, ROS concentrations may elevate endogenously in fungal cells depending on the age of the culture. 2. , 2000a) and membranes (Davidson and Schiestl, 2001). , 2000b). , 1995). , 2000) and Trx peroxidase (Lee and Park, 1998) have been reported to confer resistance against heat shock. Similar to the regulation of oxidative stress response, the up-regulation of GSH biosynthesis under heat shock is Yap1p-dependent in S.
Glyoxalases (GLO) I and II are two elements of the GSH-dependent glyoxalase system, which is considered to eliminate methylglyoxal from cells (Cooper, 1984; Penninckx and Elskens, 1993; Inoue and Kimura, 1995). , 1997). The physiological characterisation of mutants defective in GLOI (encoded by GLO1 in S. , 1997). Nevertheless, S. , 1997). , 1986). Moreover, induction of GLO1 expression by osmotic stress in S. cerevisiae is thought to scavenge methylglyoxal, which increased 42 ISTVA´N PO´CSI, ROLF A.
276, 33730–33735. V. (2001) Metal toxicity in yeasts and the role of oxidative stress. Adv. Appl. Microbiol. 49, 111–142. -S. -O. (1999) gi|22653741|sp|Q9HF78|GSH1_CANAL ô, direct submission to database. ô NCBI Entrez sequence identiﬁcation number and data base accession number. M. and Veenhuis, M. (2002) Molecular characterization of the Hansenula polymorpha FLD1 gene encoding formaldehyde dehydrogenase. Yeast 19, 37–42. M. and McNeil, B. (2003) Physiological responses of chemostat cultures of Aspergillus niger (B1-D) to simulated and actual oxidative stress.
Advances in Microbial Physiology, Vol. 49 by Robert K. Poole