Molecular Playground/CLOCK:BMAL1 heterodimer complex

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'''1.CLOCK'''
'''1.CLOCK'''
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<scene name='60/609802/Clock_only/1'>CLOCK</scene> is composed of three domains: one <scene name='60/609802/Clock_bhlh/1'>N-terminal bHLH</scene> domain, two PAS domains (<scene name='60/609802/Clock_psa_a/1'>PSA-A</scene> and <scene name='60/609802/Clock_psa_b/1'>PSA-B</scene>). The connections between each domain are two <scene name='60/609802/Clock_l1_l2/1'>flexible loops</scene>. <scene name='60/609802/Clock_helix_sheets/1'>The structure of CLOCK</scene> consists of 12 alpha-helixes and 8 beta-sheets. In between the helixes and sheets, there are many flexible loops, which are the main contributions to the CLOCK:BMAL1 interactions.
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<scene name='60/609802/Clock_only/1'>CLOCK</scene> is composed of three domains: one <scene name='60/609802/Clock_bhlh/1'>N-terminal bHLH</scene> domain, two PAS domains (<scene name='60/609802/Clock_psa_a/1'>PSA-A</scene> and <scene name='60/609802/Clock_psa_b/1'>PSA-B</scene>). The connections between each domain are two <scene name='60/609802/Clock_l1_l2/1'>flexible loops</scene>. Comparing to the flexible loops in BMAL1, the distances of the connection loops in CLOCK are longer.
'''2. BMAL1'''
'''2. BMAL1'''
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<scene name='60/609802/Bmal1_only/1'>BMAL1</scene>
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<scene name='60/609802/Bmal1_only/1'>BMAL1</scene> is also composed of three domains: one <scene name='60/609802/Bmal1_bhlh/1'>N-terminal bHLH</scene> domain, two PAS domains (<scene name='60/609802/Bmal1_psa_a/1'>PSA-A</scene> and <scene name='60/609802/Bmal1_psa_b/1'>PSA-B</scene>). There are ~15-residue flexible loop (<scene name='60/609802/Bmal1_l1/1'>L1</scene>) and ~20-residue flexible loop (<scene name='60/609802/Bmal1_l2/1'>L2</scene>) connect between each domains.
==The interface between CLOCK and BMAL1==
==The interface between CLOCK and BMAL1==

Revision as of 19:43, 2 December 2014

CLOCK:BMAL1 heterodimer complex

mouse CLOCK:BMAL1 heterodimer complex

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References

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  2. Silver R, Kriegsfeld LJ. Circadian rhythms have broad implications for understanding brain and behavior. Eur J Neurosci. 2014 Jun;39(11):1866-80. doi: 10.1111/ejn.12593. Epub 2014 May 5. PMID:24799154 doi:http://dx.doi.org/10.1111/ejn.12593
  3. Huang N, Chelliah Y, Shan Y, Taylor CA, Yoo SH, Partch C, Green CB, Zhang H, Takahashi JS. Crystal structure of the heterodimeric CLOCK:BMAL1 transcriptional activator complex. Science. 2012 Jul 13;337(6091):189-94. Epub 2012 May 31. PMID:22653727 doi:10.1126/science.1222804
  4. Lowrey PL, Takahashi JS. Genetics of circadian rhythms in Mammalian model organisms. Adv Genet. 2011;74:175-230. doi: 10.1016/B978-0-12-387690-4.00006-4. PMID:21924978 doi:http://dx.doi.org/10.1016/B978-0-12-387690-4.00006-4
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  6. Stevens RG. Circadian disruption and breast cancer: from melatonin to clock genes. Epidemiology. 2005 Mar;16(2):254-8. doi: 10.1097/01.ede.0000152525.21924.54. PMID:15703542 doi:http://dx.doi.org/10.1097/01.ede.0000152525.21924.54

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