Raoul Bertrand

Selective cleavage of the connector segments within the myosin-S1 heavy chain by staphylococcal protease

The existence of the two connector segments linking the tryptic 50 kDA fragment of skeletal S1 heavy chain to the adjacent 27 kDa and 20 kDa peptides was ascertained by digestion of S1 with staphylococcal protease which was found to act specifically at these particular regions. Three new peptides of M r 28 000, 48 000 and 22 000 were produced and the novel S1 derivative formed had an intact actin‐activated ATPase activity. Amino acid sequence analyses indicated that the 48 kDa and 22 kDa peptides overlap the two connector elements.

Transient-Phase Studies on the Arginine Kinase Reaction

1. The initial formation of creatine phosphate by creatine kinase was studied in the millisecond range and the effect of temperature on the transient and steady-state phases exploited. 2. At 25 degrees C and 35 degrees C there was no transient phase. This is in agreement with the results of Gutfreund [Engelborghs, Y., Marsh, A., and Gutfreund, H. (1975) Biochem. J. 151, 47--50]. 3. At 4 degrees C the time course of creatine phosphate formation was complex and consisted of three transient phases: a lag phase, a burst phase and a steady-state phase. Based on this result a reaction scheme for creatine kinase which includes three intermediates was proposed. Despite the completeness of the time course, the extraction of estimates for the rate constants was difficult and computer simulation and iterative methods had to be resorted to. 4. Attempts were made to provide evidence for the complex enzyme.ADP.metaphosphate.creatine on the creatine kinase reaction pathway [cf. Milner-White, E.J. and Watts, D.C. (1971) Biochem. J. 122, 727--740]. Under the conditions used these attempts were unsuccessful at times down to 2.5 ms, at 4 degrees C or 35 degrees C.

Interaction of the heavy chain of gizzard myosin heads with skeletal F-actin

To probe the molecular properties of the actin recognition site on the smooth muscle myosin heavy chain, the rigor complexes between skeletal F-actin and chicken gizzard myosin subfragments 1 (S1) were investigated by limited proteolysis and by chemical cross-linking with 1-ethyl-3-[3-(dimethyl-amino)propyl]carbodiimide. Earlier, these approaches were used to analyze the actin site on the skeletal muscle myosin heads [Mornet, D., Bertrand, R., Pantel, P., Audemard, E., & Kassab, R. (1981) Biochemistry 20, 2110-2120; Labbé, J.P., Mornet, D., Roseau, G., & Kassab, R. (1982) Biochemistry 21, 6897-6902]. In contrast to the case of the skeletal S1, the cleavage with trypsin or papain of the sensitive COOH-terminal 50K-26K junction of the head heavy chain had no effect on the actin-stimulated Mg2+-ATPase activity of the smooth S1. Moreover, actin binding had no significant influence on the proteolysis at this site whereas it abolished the scission of the skeletal S1 heavy chain. The COOH-terminal 26K segment of the smooth papain S1 heavy chain was converted by trypsin into a 25K peptide derivative, but it remained intact in the actin-S1 complex. A single actin monomer was cross-linked with the carbodiimide reagent to the intact 97K heavy chain of the smooth papain S1. Experiments performed on the complexes between F-actin and the fragmented S1 indicated that the site of cross-linking resides within the COOH-terminal 25K fragment of the S1 heavy chain. Thus, for both the striated and smooth muscle myosins, this region appears to be in contact with F-actin.(ABSTRACT TRUNCATED AT 250 WORDS)

Acylation réversible des groupements aminés protéiques par l'anhydride phtalique: Application aux parvalbumines musculaires(*)

Summary Phthalic anhydride reacts rapidly at pH 8.5 with the free amino groups of a carp parvalbumin, thereby converting them quantitatively to o -carboxybenzoyl derivatives. This reaction is quantitatively reversible by incubation of the phthalyl-protein at pH 3.5 and 50° for 48 h. This reaction has been used to perform a limited trypsic hydrolysis of the parvalbumin at the level of its single arginine residue. Subsequently, the complete trypsic hydrolysis of the two fragments generated has been conducted successfully. The nature and specificity of the reaction are discussed, as well as its possible application to the study of the primary structure of other proteins.

Structural aspects of actomyosin interaction

Actin binding to myosin-S1 modulates the limited tryptic cleavage of the COOH-terminal region of the 95K heavy chain at the joint connecting the 75K and 20K peptide units; concomitantly actin affords total protection against the resulting loss of acto-S1 Mg2+-ATPase activity. The specificity of the actin effect is illustrated by the fact that it exerts itself not only on free S1 but also on the intact myosin molecule. Mg2+-ATP and Mg2+-ADP impair the protective action of actin to an extent closely related to their respective affinity for the acto-S1 complex. Tryptic fragmentation of S1 heavy chain under highly controlled conditions, using trypsin to S1 weight ratios in the range 1:1000 - 1:1500 led us to establish that peptide bond cleavage at the 75K-20K junction is a sequential process giving rise first to a 22K peptide intermediate which is subsequently converted to the stable 20K fragment. Most importantly, it is also demonstrated that the loss of S1 activation by actin is not due to the initial scission of the 75K-22K linkage but is intimately associated with the breakdown of the 22K precursor into its 20K moiety. Three trypsin-modified S1 derivatives, the heavy chain of which is a complex of two or three fragments, were purified. A detailed analysis of the C-termini of these fragments, as compared to the C-terminal structure of the intact heavy chain, indicated that the 20K fragment is formed mainly through the degradation of a NH2-terminal 2K segment in the 22K precursor and that this proteolytic event is the only one accounting for the acto-S1 ATPase loss. Cross-linking experiments exploiting the reaction of a carbodiimide reagent with rigor complexes containing either fluorescent actin or fluorescent fragmented S1 revealed unequivocally the attachment of the actin monomer to recognition sites on the 20K and 50K units of S1 heavy chain. Specific interactions between the C-terminal 20K domain and light chain LC2 are proposed as being part of the molecular mechanism of the myosin-linked regulation of actomyosin interaction.

Hydrolyse trypsique étendue au niveau des liaisons aspartyl

Summary A quantitative modification of free carboxyl groups in peptides and proteins can be obtained, under mild conditions, by reacting them with ethylenediamine in the presence of N-ethyl-N′-(3-dimethylaminopropyl)-Carbodiimide. Aminoethylasparagine and aminoethylglutamine side chains are thus generated in place of the corresponding carboxylic ones. The first kind of residue because of its structure closer to that of lysine, is a point of greater potential trypsic cleavage than the second one. The specificity and yields of this enzymatic cleavage reaction and its possible application in sequence studies are discussed.