AI Article Synopsis
- The study used NMR relaxation techniques to measure how the internal dynamics of recombinant human ubiquitin change with temperature, focusing on amide N-H and methyl groups in the protein.
- The results indicated a linear temperature dependence for most sites, with a significant difference in how the backbone and methyl-bearing side chains respond, suggesting a larger Lambda-value for the backbone.
- These findings align with previous research on a calmodulin-peptide complex, hinting that the differing behaviors of main chains and side chains in response to temperature might be a common trait in proteins.
Article Abstract
The temperature dependence of the internal dynamics of recombinant human ubiquitin has been measured using solution NMR relaxation techniques. Nitrogen-15 relaxation has been employed to obtain a measure of the amplitude of subnanosecond motion at amide N-H sites in the protein. Deuterium relaxation has been used to obtain a measure of the amplitude of motion of methyl-groups in amino-acid side chains. Data was obtained between 5 and 55 degrees C. The majority of amide N-H and methyl groups show a roughly linear (R(2)>0.75) temperature dependence of the associated Lipari-Szabo model-free squared generalized-order parameter (O(2)) describing the amplitude of motion. Interestingly, for those sites showing a linear response, the temperature dependence of the backbone is distinct from that of the methyl-bearing side chains with the former being characterized by a significantly larger Lambda-value, where Lambda is defined as d ln(1 - O)/d lnT. These results are comparable to the sole previous such study of the temperature dependence of protein motion obtained for a calmodulin-peptide complex. This suggests that the distinction between the main chain and methyl-bearing side chains may be general. Insight into the temperature dependence is gathered from a simple two-state step potential model.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1861776 | PMC |
| http://dx.doi.org/10.1529/biophysj.106.102160 | DOI Listing |
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