Dynamics of ribonuclease H: Temperature dependence of motions on multiple time scales

被引:185
作者
Mandel, AM [1 ]
Akke, M [1 ]
Palmer, AG [1 ]
机构
[1] COLUMBIA UNIV, DEPT BIOCHEM & MOL BIOPHYS, NEW YORK, NY 10032 USA
关键词
D O I
10.1021/bi962089k
中图分类号
Q5 [生物化学]; Q7 [分子生物学];
学科分类号
071010 ; 081704 ;
摘要
The temperature dependence of the backbone motions in Escherichia coli ribonuclease HI was studied on multiple time scales by N-15 nuclear magnetic spin relaxation. Laboratory frame relaxation data at 285, 300, and 310 K were analyzed using the model-free and reduced spectral density approaches. The temperature dependence of the order parameters was used to define a characteristic temperature for the motions of the backbone N-H bond vectors on picosecond to nanosecond time scales. The characteristic temperatures for secondary structure elements, loops, and the C-terminus are similar to 1000, similar to 300, and similar to 170 K, respectively. The observed variation in the characteristic temperature indicates that the energy landscape, and thus the configurational heat capacity, is markedly structure dependent in the folded protein. The effective correlation times for internal motions do not show significant temperature dependence. Conformational exchange was observed for a large number of residues forming a contiguous region of the protein that includes the coiled coil formed by helices alpha(A) and alpha(D). Exchange broadening in the CPMG experiments decreased with increased temperature, directly demonstrating that the microscopic exchange rate is faster than the pulse repetition rate of 1.2 ms. The temperature dependence of the exchange contributions to the transverse relaxation rate constant shows approximately Arrhenius behavior over the studied temperature range with apparent activation enthalpies of similar to 20-50 kJ/mol. Numerical calculations suggest that these values underestimate the activation barriers by at most a factor of 2. The present results obtained at 300 K are compared to those reported previously [Mandel, A. M., Akke, M., & Palmer,A. G., III (1995) J. Mel. Biol. 246, 144-163] to establish the reproducibility of the experimental techniques.
引用
收藏
页码:16009 / 16023
页数:15
相关论文
共 105 条
[1]  
Abragam A., 1961, The principles of nuclear magnetism, P1
[2]   NMR ORDER PARAMETERS AND FREE-ENERGY - AN ANALYTICAL APPROACH AND ITS APPLICATION TO COOPERATIVE CA2+ BINDING BY CALBINDIN-D(9K) [J].
AKKE, M ;
BRUSCHWEILER, R ;
PALMER, AG .
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 1993, 115 (21) :9832-9833
[3]   HETERONUCLEAR-CORRELATION NMR-SPECTROSCOPY WITH SIMULTANEOUS ISOTOPE FILTRATION, QUADRATURE DETECTION, AND SENSITIVITY ENHANCEMENT USING Z-ROTATIONS [J].
AKKE, M ;
CARR, PA ;
PALMER, AG .
JOURNAL OF MAGNETIC RESONANCE SERIES B, 1994, 104 (03) :298-302
[4]   Monitoring macromolecular motions on microsecond to millisecond time scales by R(1)rho-R(1) constant relaxation time NMR spectroscopy [J].
Akke, M ;
Palmer, AG .
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 1996, 118 (04) :911-912
[5]   SPIN-ECHO STUDIES OF CHEMICAL EXCHANGE .2. CLOSED FORMULAS FOR 2 SITES [J].
ALLERHAN.A ;
GUTOWSKY, HS .
JOURNAL OF CHEMICAL PHYSICS, 1965, 42 (05) :1587-&
[6]   IMPROVED ALGORITHM FOR NONITERATIVE TIME-DOMAIN MODEL-FITTING TO EXPONENTIALLY DAMPED MAGNETIC-RESONANCE SIGNALS [J].
BARKHUIJSEN, H ;
DEBEER, R ;
VANORMONDT, D .
JOURNAL OF MAGNETIC RESONANCE, 1987, 73 (03) :553-557
[7]   SPIN ECHOES AND CHEMICAL EXCHANGE [J].
BLOOM, M ;
REEVES, LW ;
WELLS, EJ .
JOURNAL OF CHEMICAL PHYSICS, 1965, 42 (05) :1615-&
[8]   INFLUENCE OF CROSS-CORRELATION BETWEEN DIPOLAR AND ANISOTROPIC CHEMICAL-SHIFT RELAXATION MECHANISMS UPON LONGITUDINAL RELAXATION RATES OF N-15 IN MACROMOLECULES [J].
BOYD, J ;
HOMMEL, U ;
CAMPBELL, ID .
CHEMICAL PHYSICS LETTERS, 1990, 175 (05) :477-482
[9]  
Brink D. M., 1993, ANGULAR MOMENTUM, P1
[10]  
BRUSCHWEILER R, 1994, J AM CHEM SOC, V116, P8426