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Chris M Brown
Chris M Brown
Associate Professor, Biochemistry, University of Otago
Verified email at otago.ac.nz - Homepage
Title
Cited by
Cited by
Year
Translational termination efficiency in mammals is influenced by the base following the stop codon.
KK McCaughan, CM Brown, ME Dalphin, MJ Berry, WP Tate
Proceedings of the National Academy of Sciences 92 (12), 5431-5435, 1995
3781995
The identity of the base following the stop codon determines the efficiency of in vivo translational termination in Escherichia coli.
ES Poole, CM Brown, WP Tate
The EMBO journal 14 (1), 151-158, 1995
3661995
CRISPRTarget: bioinformatic prediction and analysis of crRNA targets
A Biswas, JN Gagnon, SJJ Brouns, PC Fineran, CM Brown
RNA biology 10 (5), 817-827, 2013
3612013
CRISPRDetect: a flexible algorithm to define CRISPR arrays
A Biswas, RHJ Staals, SE Morales, PC Fineran, CM Brown
BMC genomics 17, 1-14, 2016
3422016
Effect of 5'UTR introns on gene expression in Arabidopsis thaliana
BYW Chung, C Simons, AE Firth, CM Brown, RP Hellens
BMC genomics 7, 1-13, 2006
2722006
Visualization of RNA–protein interactions in living cells: FMRP and IMP1 interact on mRNAs
O Rackham, CM Brown
The EMBO journal 23 (16), 3346-3355, 2004
2512004
Sequence analysis suggests that tetra-nucleotides signal the termination of protein synthesis in eukaryotes
CM Brown, PA Stockwell, CNA Trotman, WP Tate
Nucleic acids research 18 (21), 6339-6345, 1990
2371990
Translational termination:" stop" for protein synthesis or" pause" for regulation of gene expression
WP Tate, CM Brown
Biochemistry 31 (9), 2443-2450, 1992
1671992
Global or local? Predicting secondary structure and accessibility in mRNAs
SJ Lange, D Maticzka, M Möhl, JN Gagnon, CM Brown, R Backofen
Nucleic acids research 40 (12), 5215-5226, 2012
1632012
The signal for the termination of protein synthesis in procaryotes
CM Brown, PA Stockwell, CNA Trotman, WP Tate
Nucleic acids research 18 (8), 2079-2086, 1990
1591990
Interference-driven spacer acquisition is dominant over naive and primed adaptation in a native CRISPR–Cas system
RHJ Staals, SA Jackson, A Biswas, SJJ Brouns, CM Brown, PC Fineran
Nature communications 7 (1), 12853, 2016
1572016
Local and distant sequences are required for efficient readthrough of the barley yellow dwarf virus PAV coat protein gene stop codon
CM Brown, SP Dinesh-Kumar, WA Miller
Journal of virology 70 (9), 5884-5892, 1996
1421996
The emerging world of small ORFs
RP Hellens, CM Brown, MAW Chisnall, PM Waterhouse, RC Macknight
Trends in plant science 21 (4), 317-328, 2016
1212016
Discovery of multiple anti-CRISPRs highlights anti-defense gene clustering in mobile genetic elements
R Pinilla-Redondo, S Shehreen, ND Marino, RD Fagerlund, CM Brown, ...
Nature communications 11 (1), 5652, 2020
1202020
Translational termination efficiency in both bacteria and mammals is regulated by the base following the stop codon
WP Tate, ES Poole, JA Horsfield, SA Mannering, CM Brown, JG Moffat, ...
Biochemistry and cell biology 73 (11-12), 1095-1103, 1995
1011995
Detecting overlapping coding sequences in virus genomes
AE Firth, CM Brown
BMC bioinformatics 7, 1-6, 2006
982006
The translational termination signal database
CM Brown, ME Dalphin, PA Stockwell, WP Tate
Nucleic acids research 21 (13), 3119-3123, 1993
941993
Direct recognition of mRNA stop signals by Escherichia coli polypeptide chain release factor two
CM Brown, WP Tate
Journal of Biological Chemistry 269 (52), 33164-33170, 1994
871994
Targeting of temperate phages drives loss of type I CRISPR–Cas systems
C Rollie, A Chevallereau, BNJ Watson, T Chyou, O Fradet, I McLeod, ...
Nature 578 (7793), 149-153, 2020
852020
Transterm: a database to aid the analysis of regulatory sequences in mRNAs
GH Jacobs, A Chen, SG Stevens, PA Stockwell, MA Black, WP Tate, ...
Nucleic acids research 37 (suppl 1), D72-D76, 2009
772009
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