STRUCTURAL CONNECTIVITY IN ACTIN - EFFECT OF C-TERMINAL MODIFICATIONS ON THE PROPERTIES OF ACTIN

被引:86
作者
CROSBIE, RH
MILLER, C
CHEUNG, P
GOODNIGHT, T
MUHLRAD, A
REISLER, E
机构
[1] UNIV CALIF LOS ANGELES, DEPT CHEM & BIOCHEM, LOS ANGELES, CA 90024 USA
[2] UNIV CALIF LOS ANGELES, INST MOLEC BIOL, LOS ANGELES, CA 90024 USA
[3] HEBREW UNIV JERUSALEM, HADASSAH SCH DENT MED, DEPT ORAL BIOL, IL-91010 JERUSALEM, ISRAEL
来源
BIOPHYSICAL JOURNAL | 1994年 / 67卷 / 05期
关键词
D O I
10.1016/S0006-3495(94)80678-2
中图分类号
Q6 [生物物理学];
学科分类号
071011 ;
摘要
In this study, we use fluorescent probes and proteolytic digestions to demonstrate structural coupling between distant regions of actin. We show that modifications of Cys-374 in the C-terminus of actin slow the rate of nucleotide exchange in the nucleotide cleft. Conformational coupling between the C-terminus and the DNaseI loop in subdomain II is observed in proteolytic digestion experiments in which a new C-terminal cleavage site is exposed upon DNaseI binding. The functional consequences of C-terminal modification are evident from S-1 ATPase activity and the in vitro motility experiments with modified actins. Pyrene actin, labeled at Cys-374, activates S-1 ATPase activity only half as well as control actin. This reduction is attributed to a lower V-max value because the affinity of pyrene actin to S-1 is not significantly altered. The in vitro sliding velocity of pyrene actin is also decreased. However, IAEDANS labeling of actin (also at Cys-374) enhances the V-max of acto-S-1 ATPase activity and the in vitro sliding velocity by approximately 25%. These results are discussed in terms of conformational coupling between distant regions in actin and the functional implications of the interactions of actin-binding proteins with the C-terminus of actin.
引用
收藏
页码:1957 / 1964
页数:8
相关论文
共 50 条
[1]   F-19 NMR-STUDIES OF THE INTERACTION OF SELECTIVELY LABELED ACTIN AND MYOSIN [J].
BARDEN, JA ;
PHILLIPS, L ;
CORNELL, BA ;
DOSREMEDIOS, CG .
BIOCHEMISTRY, 1989, 28 (14) :5895-5901
[2]  
BRADFORD MM, 1976, ANAL BIOCHEM, V72, P248, DOI 10.1016/0003-2697(76)90527-3
[3]   PEPTIDE ANTIBODY SPECIFIC FOR THE AMINO TERMINUS OF SKELETAL-MUSCLE ALPHA-ACTIN [J].
BULINSKI, JC ;
KUMAR, S ;
TITANI, K ;
HAUSCHKA, SD .
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA-BIOLOGICAL SCIENCES, 1983, 80 (06) :1506-1510
[4]   PROTECTION OF ACTIN AGAINST PROTEOLYSIS BY COMPLEX-FORMATION WITH DEOXYRIBONUCLEASE-I [J].
BURTNICK, LD ;
CHAN, KW .
CANADIAN JOURNAL OF BIOCHEMISTRY, 1980, 58 (12) :1348-1354
[5]  
CARLIER MF, 1986, J BIOL CHEM, V261, P778
[6]   PYRENE ACTIN - DOCUMENTATION OF THE VALIDITY OF A SENSITIVE ASSAY FOR ACTIN POLYMERIZATION [J].
COOPER, JA ;
WALKER, SB ;
POLLARD, TD .
JOURNAL OF MUSCLE RESEARCH AND CELL MOTILITY, 1983, 4 (02) :253-262
[7]   THE USE OF ACTIN LABELED WITH N-(1-PYRENYL)IODOACETAMIDE TO STUDY THE INTERACTION OF ACTIN WITH MYOSIN SUBFRAGMENTS AND TROPONIN TROPOMYOSIN [J].
CRIDDLE, AH ;
GEEVES, MA ;
JEFFRIES, T .
BIOCHEMICAL JOURNAL, 1985, 232 (02) :343-349
[8]   INTERACTION OF CALDESMON AND MYOSIN SUBFRAGMENT-1 WITH THE C-TERMINUS OF ACTIN [J].
CROSBIE, RH ;
CHALOVICH, JM ;
REISLER, E .
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS, 1992, 184 (01) :239-245
[9]   THE INFLUENCE OF CALDESMON ON ATPASE ACTIVITY OF THE SKELETAL-MUSCLE ACTOMYOSIN AND BUNDLING OF ACTIN-FILAMENTS [J].
DABROWSKA, R ;
GOCH, A ;
GALAZKIEWICZ, B ;
OSINSKA, H .
BIOCHIMICA ET BIOPHYSICA ACTA, 1985, 842 (01) :70-75
[10]   ANTIBODY AGAINST THE AMINO TERMINUS OF ALPHA-ACTIN INHIBITS ACTOMYOSIN INTERACTIONS IN THE PRESENCE OF ATP [J].
DASGUPTA, G ;
REISLER, E .
JOURNAL OF MOLECULAR BIOLOGY, 1989, 207 (04) :833-836
12345