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Please click on the selected
publications below to download a PDF. A full list of Joe Bass'
publications can be found on PubMed.
Chen WS, Peng XD, Wang Y, Xu PZ, Chen ML, Luo Y, Jeon SM, Coleman
K, Haschek WM, Bass J, Philipson LH, Hay N. 2009. Leptin deficiency
and beta-cell dysfunction underlie type 2 diabetes in compound
Akt knockout mice. Mol Cell Biol. Jun;29(11):3151-62 [Epub
ahead of print Mar 16]
Arble, D, Bass, J, Laposky, AD, Vitaterna, MH, Turek, FW.
2009. Circadian timing of food intake contributes to weight
gain. Obesity (Silver
Spring). Nov;17(11):2100-2 [Epub
2009 Sep 3]
Marcheva, B, Ramsey KM, Affinati, AH, Bass, J. 2009. Clock
Genes and Metabolic Disease. Invited Review: J
Appl Physiol.
107(5):1638-46 [Epub 2009 Aug 6]
Ramsey
KM, Yoshino J, Brace CS, Abrassart D, Kobayashi Y, Marcheva B, Hong HK, Chong
JL, Buhr ED, Lee C, Takahashi JS, Imai SI, and Bass J. 2009. Circadian clock
feedback cycle through NAMPT-mediated NAD+ biosynthesis. Science. 324(5927):651-4
[Epub ahead of print: March 19.]
Ramsey, KM, Bass, J. 2009. Obeying the clock yields benefits for metabolism. Invited Commentary. PNAS. 106:4069-4070
Green,
C, Takahashi JS, Bass, J. 2008. The meter of metabolism. Invited
review: Cell. (134):728-742.
Wu,
C, Delano, DL, Mitro, N, Su, SV, Janes, J, McClurg, P, Batalov,
S, Welch, GL, Zhang, J, Orth, AP, Walker JR, Glynne, RJ, Cooke,
MP, Takahashi, JS, Shimomura, K, Kohsaka, A, Bass, J, Saez, E,
Wiltshire, T, Su, AI. 2008. Gene set enrichment in eQTL data
identifies novel annotations and pathway regulators. PLoS
Genetics 4(5): e1000070
 Kohsaka, A, Laposky, AD, Ramsey, KM, Estrada, C, Joshu, C, Kobayashi, Y, Turek, FW, Bass, J. 2007. High-fat diet disrupts behavioral and molecular circadian rhythms in mice. Cell Metabolism. 6(5):414-21.
This paper has been reviewed and profiled in the
following editorials:
Wang,
S. 11/7/2007. Fatty Diet Scrambles Body Clock. The Wall Street Journal
Online.
Ledford,
H. 11/6/2007. Excessive fat intake can throw
out the body clock. Nature news.
Steenhuysen,
J .
11/6/2007. High-fat foods disrupt body clock,
study suggests. The Toronto Star.
11/7/2007. High-fat Diet Disrupts
Body Clock. Science Daily.
Leopold, W. 11/6/2007. Scientists
find high-fat diet disrupts body clock. AAAS EurekAlert!.
11/7/2007. High-fat diet can alter
body clock -- study. The Philippine Daily Inquirer Online.
Up all night, eat all day. Dec 14
2007 Leading Edge: Molecular Biology Select Cell (131):1023
Ramos,
R, Swanson, A, Bass, J. 2007. Calreticulin and Hsp90 stabilize the
human insulin receptor and promote its mobility in the ER. 2007. Proc
Natl Acad Sci. Jun 19;104(25):10470-5. Epub 2007 Jun 11. Moynihan
Ramsey, K. Marcheva, B., Kohsaka, A., Bass, J. 2007. The Clockwork
of Metabolism. Annu Rev Nutr. 27:219-40. McClurg,
P, Janes, J, Wu, C, Delano, DL, Walker, JR, Takahashi, JS, Shimomura,
K, Kohsaka, A, Bass, J, Wiltshire T, and Su AI. 2007. Genome-wide
association analysis in diverse inbred mice: power and population
structure. Genetics. 176:675-683.  Kohsaka,
A, Bass, J. 2007. A Sense of Time: How Molecular Clocks Organize
Metabolism. Trends Endocrinol Metab. 18:4-11. Laposky
A.D., Shelton J., Perrino N., Bass J., Dugovic
C., and Turek F.W. 2006. Altered sleep regulation in leptin-deficient
mice. Am J Physiol Regul Integr Comp Physiol. 4:894-903. Turek,
F.W., Joshu, C., Kosaka, A., Lin, E., McDearmon, E., Laposky,
A., Olson, S., Easton, A., Jensen, D., Eckel, R., Takahashi,
J. and Bass, J. 2005. Obesity and Metabolic
Syndrome in Clock Mutant Mice. Science. May 13; 308(5724):
1043-5. Epub 2005 Apr 21. This paper has been reviewed and profiled in the
following editorials: Schwartz, MW.
2005. Out of Synch: Clock mutation causes obesity in mice. Cell
Metab. 1:355-356. Staels, B. 2006. When the Clock stops ticking, metabolic
syndrome explodes. Nat Med. 1: 55-61. Wagh, M. 2007. Metabolism gets clocked. The
Scientist. 21(4): 74. Bass,
J., Turek, F.W. 2005. Sleepless in America: A Pathway
to Obesity and the Metabolic Syndrome? Invited Editorial, Archives
of Internal Medicine. Archives of Internal Medicine 165:15-16. Quing-xin,
H., Wilken, J., Nakagawa, S., Ramos, M.R., Jia, W., Bass,
J. and Weiss M.A. 2003. A divergent invertebrate protein
structurally resembles human insulin and activates the human
insulin receptor. Genes and Development 17:826-831 (Perspective p
813-818). Bass, J. and Steiner,
D.F. Insulin receptor folding. In Insulin signaling: from cultured
cells to animal models. Harwood Academic Press. Invited
review, 2002. Bass,
J., Turck, C., and Steiner, D.F. 2000. Furin-mediated
processing in the early secretory pathway: sequential cleavage
and degradation of the insulin receptor. 2000. Proc. Natl.
Acad. Sci. USA 97: 11905-11909. Rouard,
M., Bass, J.*, Grigorescu, F., Garrett, T.P.J., Ward,
C.W., Lipkind, G., Jaffiole, C., Steiner, D.F., and Bell, G.I.
1999. Congenital insulin resistance associated with a conformational
alteration in a conserved -sheet in the insulin receptor L1 domain.
(*contributed equally). J. Biol. Chem. 274: 18487-18491. Bass,
J., Chiu, G., Argon, Y., and Steiner, D.F. 1998. Folding
of insulin receptor monomers is facilitated by the molecular
chaperones calnexin and calreticulin and impaired by rapid
dimerization. J. Cell Biol. 141: 637-646. |
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