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M T Andrews

Showing results (11-20 of 18) with videos related to

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Gene|November 28, 1996
CADp44: a novel regulatory subunit of the 26S proteasome and the mammalian homolog of yeast Sug2pV W Bauer, J C Swaffield, S A Johnston, et al.
Proceedings of the National Academy of Sciences of the United States of America|July 8, 1998
Low-temperature carbon utilization is regulated by novel gene activity in the heart of a hibernating mammalM T Andrews, T L Squire, C M Bowen, et al.
American Journal of Physiology. Regulatory, Integrative and Comparative Physiology|September 15, 2001
Expression of a chimeric retroviral-lipase mRNA confers enhanced lipolysis in a hibernating mammalV W Bauer, T L Squire, M E Lowe, et al.
Cell|May 8, 1987
Negative supercoiling is not required for 5S RNA transcription in vitroA P Wolffe, M T Andrews, E Crawford, et al.
RNA (New York, N.Y.)|February 1, 1996
Elements essential for processing intronic U14 snoRNA are located at the termini of the mature snoRNA sequence and include conserved nucleotide boxes C and DN J Watkins, R D Leverette, L Xia, et al.
Molecular and Cellular Biology|August 1, 1993
Role of TFIIIA zinc fingers in vivo: analysis of single-finger function in developing Xenopus embryosM B Rollins, S Del Rio, A L Galey, et al.
American Journal of Physiology. Regulatory, Integrative and Comparative Physiology|February 9, 2000
Spontaneous mutation in the db gene results in obesity and diabetes in CD-1 outbred miceJ A Brown, S C Chua, S M Liu, et al.
Nucleic Acids Research|December 11, 1995
Intronic U14 snoRNAs of Xenopus laevis are located in two different parent genes and can be processed from their introns during early oogenesisL Xia, J Liu, C Sage, et al.
Pageof 2

Showing results (11-20 of 18) with videos related to

Sort By:
Pageof 2
You have reached the last page of results.This site can display upto 18 results.
Gene|November 28, 1996
CADp44: a novel regulatory subunit of the 26S proteasome and the mammalian homolog of yeast Sug2pV W Bauer, J C Swaffield, S A Johnston, et al.
Proceedings of the National Academy of Sciences of the United States of America|July 8, 1998
Low-temperature carbon utilization is regulated by novel gene activity in the heart of a hibernating mammalM T Andrews, T L Squire, C M Bowen, et al.
American Journal of Physiology. Regulatory, Integrative and Comparative Physiology|September 15, 2001
Expression of a chimeric retroviral-lipase mRNA confers enhanced lipolysis in a hibernating mammalV W Bauer, T L Squire, M E Lowe, et al.
Cell|May 8, 1987
Negative supercoiling is not required for 5S RNA transcription in vitroA P Wolffe, M T Andrews, E Crawford, et al.
RNA (New York, N.Y.)|February 1, 1996
Elements essential for processing intronic U14 snoRNA are located at the termini of the mature snoRNA sequence and include conserved nucleotide boxes C and DN J Watkins, R D Leverette, L Xia, et al.
Molecular and Cellular Biology|August 1, 1993
Role of TFIIIA zinc fingers in vivo: analysis of single-finger function in developing Xenopus embryosM B Rollins, S Del Rio, A L Galey, et al.
American Journal of Physiology. Regulatory, Integrative and Comparative Physiology|February 9, 2000
Spontaneous mutation in the db gene results in obesity and diabetes in CD-1 outbred miceJ A Brown, S C Chua, S M Liu, et al.
Nucleic Acids Research|December 11, 1995
Intronic U14 snoRNAs of Xenopus laevis are located in two different parent genes and can be processed from their introns during early oogenesisL Xia, J Liu, C Sage, et al.
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