Language
English
German
^M
Dutch
Spanish
Title:
Noise can induce bimodality in positive transcriptional feedback loops without bistability
Source:
Science [0036-8075] To, T L yr:2010
Basic
Sorry, no full text available...
Please use the document delivery service (see below)
Holding information
Holdings in library search engine
ALBERT
Document delivery
Request document via
Library/Bibliothek
Users interested in this article also expressed an interest in the following:
description
1.
Arkin, David V V.
"Stochastic gene expression in a lentiviral positive-feedback loop: HIV-1 Tat fluctuations drive phenotypic diversity."
Cell
122.2 (2005): 169-82.
description
2.
Rao, V. Rao V.
"Control, exploitation and tolerance of intracellular noise."
Nature
420.6912 (2002): 231-237.
description
3.
Raj, A.
"Imaging individual mRNA molecules using multiple singly labeled probes."
Nature methods
5.10 (2008): 877-9.
description
4.
Maheshri, N.
"Gene expression: dialing up the frequency."
Current biology
18.24 (2009): -9.
description
5.
Srienc, S.
"Quantitative analysis of transient gene expression in mammalian cells using the green fluorescent protein."
Journal of biotechnology
49.1-3 (1996): 137-51.
description
6.
Blake, William J J.
"And the noise played on: stochastic gene expression and HIV-1 infection."
Cell
122.2 (2005): 147-9.
description
7.
Swain, Peter S.
"Intrinsic and extrinsic contributions to stochasticity in gene expression."
Proceedings of the National Academy of Sciences of the United States of America
99.20 (2002): 12795-12800.
description
8.
Qian, L.
"Neural network computation with DNA strand displacement cascades."
Nature
475.7356 (2011): 368-372.
description
9.
Raj, A.
"Variability in gene expression underlies incomplete penetrance."
Nature
463.7283 (2010): 913-918.
description
10.
Nilsson, M.
"Enhanced detection and distinction of RNA by enzymatic probe ligation."
Nature biotechnology
18.7 (2000): 791-3.
description
11.
Kurtz, Thomas G.
"Strong approximation theorems for density dependent Markov chains."
Stochastic processes and their applications
6.3 (1977): 223-240.
description
12.
Femino, Andrea M M.
"Visualization of single molecules of mRNA in situ."
Methods in enzymology
361 (2003): 245-304.
description
13.
Kitano, H.
"Biological robustness."
Nature reviews. Genetics
5.11 (2004): 826-837.
description
14.
Raser, Jonathan M.
"Control of stochasticity in eukaryotic gene expression."
Science
304.5678 (2004): 1811-1814.
description
15.
Hasty, J.
"Engineered gene circuits."
Nature
420.6912 (2002): 224-230.
description
16.
Rosenfeld, N.
"Gene Regulation at the Single-Cell Level."
Science
307.5717 (2005): 1962-1965.
description
17.
Calmon, Marilia F.
"A systematic study of transfection efficiency and cytotoxicity in HeLa cells using iron oxide nanoparticles prepared with organic and inorganic bases."
Colloids and surfaces. B, Biointerfaces
100 (2012): 177-184.
description
18.
Novák, B.
"Design principles of biochemical oscillators."
Nature reviews. Molecular cell biology
9.12 (2008): 981-991.
description
19.
Kaern, M.
"Predictable trends in protein noise."
Nature genetics
(2006): 610-1.
description
20.
Yin, J.
"Quantitative intracellular kinetics of HIV type 1."
AIDS research and human retroviruses
15.3 (1999): 273-83.
View More...
View Less...
Select All
Clear All
Save Citations
Select Format
ProCite
EndNote
Reference Manager
RefWorks
Submit citation export
Advanced
Author
Other articles by this author? -- in
GeoRef
author:
To, T L
Maheshri, N
last name
initials
Other articles by this author? -- in
Online Contents Geosciences
author:
To, T L
Maheshri, N
last name
initials
Other articles by this author? -- using
Web of Science
author:
To, T L
Maheshri, N
last name
initials
Web Search
Find related information in
a Web Search Engine
Excite
Google
HotBot
Ixquick
ZOO
Ask
Yahoo!
Bing
Naver
Search Terms:
Search for related information in
Google Scholar
Article Title
Author Name
Journal Title
Other Search
Search Terms:
A service provided by the
Library of the Wissenschaftspark Albert Einstein
, Potsdam, Germany.
© 2005 SFX by Ex Libris Inc.