Zobrazeno 1 - 10
of 11
pro vyhledávání: '"H D, Schmitt"'
Autor:
I. Grummt, A. Krämer, D. Frendewey, G. Lahr, G. Christofori, M. Frick, W. Keller, V. L. Larionov, M. A. Eldarov, A. B. Tziomenko, I. V. Karpychev, S. P. Morzunov, B. K. Tchernov, P. M. Rubtsov, I. S. Kulaev, K. G. Skryabin, A. A. Bayev, H. D. Schmitt, P. Wagner, C. Molenaar, R. Brökel, H. Haubruck, D. Gallwitz, V. A. Efimov, A. A. Buryakova, S. V. Reverdatto, O. G. Chakhamakhcheva, Yu. A. Ovchinnikov, H. Saedler, J. Paz-Ares, U. Wienand, J. Schell, N. E. Broude, E. D. Sverdlov, H. Paves, T. Timmusk, M. Metsis, M. Kelve, U. Toots, T. Neuman, M. Saarma, B. Sakmann, V. G. Korobko, T. Graf, H. Beug, J. Golay, A. Leutz, S. Ness, P. Gruss, E. Gren, G. Borisova, T. Kozlovskaya, P. Pushko, V. Tsibinogin, V. Ose, P. Pumpen, V. I. Tanyashin, G. P. Georgiev, V. Shick, A. Belyavsky, Yu. Postnikov, V. Studitsky, A. E. Sippel, M. Theisen, U. Borgmeyer, R. A. W. Rupp, U. Strech-Jurk, A. Stief, A. Müller, A. Hecht, T. Grussenmeyer, A. S. Zasedatelev, G. V. Gursky, S. L. Grokhovsky, B. P. Gottikh, A. L. Zhuze, W. Hörz, A. Mirzabekov, V. Karpo, O. Preobrazhenskaya, S. Bavykin, K. Eb
Publikováno v:
Molecular and Cellular Biology. 11:872-885
In Saccharomyces cerevisiae, the GTP-binding Ypt1 protein (Ypt1p) is essential for endoplasmic reticulum-to-Golgi protein transport. By exploiting a GAL10-YPT1 fusion to regulate YPT1 expression, three multicopy suppressors, SLY2, SLY12, and SLY41, a
Publikováno v:
European journal of cell biology. 74(1)
Sec12p is a type II membrane glycoprotein in the endoplasmic reticulum (ER) of Saccharomyces cerevisiae which is essential for transport vesicle budding. It is the guanine nucleotide exchange factor for the small GTP-binding protein Sar1p which is a
Autor:
W, Ballensiefen, H D, Schmitt
Publikováno v:
European journal of biochemistry. 247(1)
Saccharomyces cerevisiae MATa and MAT alpha cells secrete a-factor and alpha-factor pheromones. These peptides act on cells of the opposite mating type. They induce physiological changes which allow the formation of diploid cells. MATa strains produc
Autor:
T. Seehaus, Rosaura Rodicio, Friedrich K. Zimmermann, Andrés Aguilera, J. Heinisch, H. D. Schmitt
Publikováno v:
Current Genetics. 10:103-110
The genePDC1 ofSaccharomyces cerevisiae coding for pyruvate decarboxylase (E.C. 4.1.1.1.) was used as a hybridization probe to detect gene sequence homologies in different strains ofSaccharomyces cerevisiae and in other yeast species. Additionally si
Publikováno v:
Molecular and General Genetics MGG. 197:491-496
Yeast DNA pools were prepared by ligating partial Sau3A genomic digests from strains carrying various MAL genes into the BamHI site of the yeast-Escherichia coli shuttle vector YRp7. They were used to transform recipient yeast strains that could not
Publikováno v:
Molecular and General Genetics MGG. 195:530-535
Mutants of Saccharomyces cerevisiae without detectable phosphofructokinase activity were isolated. They were partly recessive and belonged to two genes called PFK1 and PFK2. Mutants with a defect in only one of the two genes could not grow when they
Autor:
H D Schmitt, F K Zimmermann
Publikováno v:
Journal of Bacteriology. 151:1146-1152
Six different pyruvate decarboxylase mutants of Saccharomyces cerevisiae were isolated. They belong to two unlinked complementation groups. Evidence is presented that one group is affected in a structural gene. The fact that five of the six mutants h
Autor:
B. P. Gottikh, D. Frendewey, D. Falkenburg, W. Hörz, H. Haubruck, M. Kelve, A. B. Tziomenko, E. R. Zabarovsky, W. Keller, R. Brökel, H. Saedler, A. R. Schäffner, A. Mirzabekov, V. Ose, O. Preobrazhenskaya, P. Gruss, A. Belyavsky, G. P. Georgiev, M. Saarma, N. E. Broude, E. Gren, H. Beug, A. Krämer, E. K. F. Bautz, A. A. Mustaev, V. V. Vlassov, P. Pushko, E. F. Zaychikov, U. Strech-Jurk, S. P. Morzunov, T. Kozlovskaya, V. G. Korobko, H. D. Schmitt, B. Sakmann, V. F. Zarytova, A. Sentenac, V. A. Efimov, U. Wienand, A. E. Sippel, L. L. Kisselev, S. V. Reverdatto, G. Borisova, A. A. Bayev, A. A. Buryakova, D. Gallwitz, B. K. Tchernov, V. I. Tanyashin, M. Theisen, C. Molenaar, V. L. Larionov, H. G. Zachau, Yu. Postnikov, W. Pargent, M. Metsis, A. Leutz, S. Bavykin, J. Paz-Ares, P. Pumpen, P. M. Rubtsov, M. A. Eldarov, I. S. Kulaev, Yu. A. Ovchinnikov, R. A. W. Rupp, E. D. Sverdlov, A. Stief, S. Ness, M. K. Nurbekov, T. Graf, A. S. Zasedatelev, A. Müller, G. Lahr, V. Karpov, K. G. Skryabin, O. G. Chakhamakhcheva, V. Tsibinogin, A. L. Zhuze, T. Neuman, G. Christofori, I. Grummt, G. R. Hartmann, K. Ebralidse, U. Borgmeyer, P. H. Hofschneider, T. Timmusk, G. V. Gursky, M. Frick, P. Wagner, J. Golay, T. Grussenmeyer, E. Lötscher, O. V. Turina, I. V. Karpychev, A. Hecht, B. Straubinger, S. L. Grokhovsky, H. Paves, P. Zahm, H. G. Klobeck, M. Riva, U. Toots, M. A. Grachev, V. Shick, J. Schell, F. J. Zimmer, H. D. Pohlenz, M. Wollersheim, V. Studitsky
Publikováno v:
Organization and Function of the Eucaryotic Genome
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_________::9a63b0579b8ae82a4a3b81395c35cd8d
https://doi.org/10.1007/978-3-642-46611-3
https://doi.org/10.1007/978-3-642-46611-3
Publikováno v:
Proceedings in Life Sciences ISBN: 9783642679216
Nitrate assimilation has been shown to be regulated in many cases by changes in the activity of nitrate reductase. This can occur by genetic induction and repression or viadirect activity changes, i. e., by activation and inactivation of the enzyme (
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_________::72a0ee8880a6079dcebafa73571592e7
https://doi.org/10.1007/978-3-642-67919-3_19
https://doi.org/10.1007/978-3-642-67919-3_19