Abstract, Lysin is a 16-kD acrosomal protein used by abalone spermatozoa to create a hole in the egg vitelline envelope (VE) by a nonenzymatic mechanism. The crystal structure of the lysin monomer is known at 1.9A resolution. The surface of the molecule reveals two tracks of basic residues running the length of one surface of the molecule and a patch of solvent-exposed hydrophobic residues on the opposite surface. Here we report that lysin dimerizes via interaction of the hydrophobic patches of monomers. Triton X-100 dissociates the dimer. The crystal structure of the dimer is described at 2.75 A. resolution. Fluorescence energy transfer experiments show that the dimer has an approximate KD of 1 ~M and that monomers exchange rapidly between dimers. Addition of isolated egg VE dissociates dimers, implicating monomers as the active species in the dissolution reaction. This work represents the first step in the elucidation of the mechanism by which lysin enables abalone spermatozoa to create a hole in the egg envelope during fertilization.URING fertilization, spermatozoa must penetrate the extracellular investments surrounding the egg before the plasma membranes of the two gametes can make contact and fuse. To accomplish this, most animal species have evolved sperm with acrosomal vesicles that undergo exocytosis to release lyric proteins used in penetration of the egg coat. Abalone spermatozoa possess an enormous acrosomal vesicle (Lewis et al., 1980). These sperm bind to the elevated egg vitelline envelope (VE) 1 and release concentrated 16-kD lysin from the exocytosing acrosome. Lysin creates a hole in the VE by a nonenzymatic mechanism to allow the sperm cell to pass through the VE and fuse with the egg (Lewis et al., 1982).Purified lysin exhibits species-selectivity in the dissolution of isolated VE. For example, 12 p~g of red abalone (Haliotis rufescens) lysin will dissolve 95 % of red abalone egg VE, whereas 12 ~g of lysin from the black abalone (1t.
The hydrolytic properties of the alpha3beta3gamma and mutant alpha3(betaY341W)3gamma subcomplexes of the TF1-ATPase have been compared. ATPase activity of the mutant is less sensitive to turnover-dependent inhibition by azide, less suppressed by increasing concentrations of Mg2+ during assay, and less stimulated by lauryl dimethylamine oxide (LDAO). Therefore, it has much lower propensity than wild-type to entrap inhibitory MgADP in a catalytic site during turnover. The fluorescence of the introduced tryptophans in the alpha3(betaY341W)3gamma subcomplex is completely quenched when catalytic sites are saturated with ATP or ADP with or without Mg2+ present. As reported for the betaY331W mutant of Escherichia coli F1 (Weber, J., Wilke-Mounts, S., Lee, R. S.-F., Grell, E., Senior, A. E. (1993) J. Biol. Chem. 268, 20126-20133), this provides a direct probe of nucleotide binding to catalytic sites. Addition of stoichiometric MgATP to the mutant subcomplex quenched one-third the tryptophan fluorescence which did not recover after 60 min. This was caused by entrapment of MgADP in a single catalytic site. Titration of catalytic sites of the alpha3(betaY341W)3gamma subcomplex with MgADP or MgATP revealed Kd's of < 50 nM, about 0.25 microM and about 35 microM. Titrations were not affected by azide, whereas LDAO lowered the affinities of catalytic sites 2 and 3 for MgADP by 5-fold and 2-fold, respectively. During titration with MgATP, LDAO slightly lowered affinity at ATP concentrations below 30 microM and had no effect at ATP concentrations above 30 microM. Maximal velocity was attained when the third catalytic site was titrated with MgATP in the presence or absence of LDAO. The same Kd's for binding MgATP to the (alphaA396C)3beta3(gammaA22C) mutant were observed before and after inactivating it by cross-linking alpha to gamma. This implies that the different affinities of catalytic sites for MgATP do not represent negative cooperativity, but rather represent heterogeneous affinities of catalytic sites dictated by the position of the coiled-coil of the gamma subunit within the central cavity of the (alpha beta)3 hexamer.
Sodium plus potassium activated adenosinetriphosphatase [(Na,K)ATPase] is composed of a catalytic subunit (alpha) and a glycoprotein subunit (beta) of unknown function. A method has been developed to label the beta subunit of purified dog kidney (Na,K)ATPase with fluorescent probes. The method consists of oxidation of beta-subunit oligosaccharides, reaction of the resulting aldehydes with fluorescent hydrazides, and reduction of the hydrazones and unreacted aldehydes with NaBH4. Two oxidation methods were compared. Simultaneous treatment with neuraminidase and galactose oxidase did not inhibit significantly (Na,K)ATPase activity and allowed insertion of up to 11 mol of probe per mol of beta. In contrast, oxidation of (Na,K)ATPase oligosaccharides with periodate resulted in 50-80% inhibition of the (Na,K)ATPase activity with low or undetectable labeling. Eleven commercial probes and two novel hydrazides were tested for labeling of (Na,K)ATPase treated with galactose oxidase and neuraminidase. Eight probes did not label (Na,-K)ATPase but labeled red cell ghosts oxidized with periodate. Four probes labeled beta specifically but either adsorbed to the membrane tightly, or cross-linked the beta subunits, or formed unstable adducts. Lucifer yellow CH labeled beta specifically without membrane adsorption. Labeling stoichiometries from 1 to 11 mol of lucifer yellow CH per mol of beta were obtained without inhibition of (Na,K)ATPase activity and without significant alteration of the anthroylouabain binding capacity or its association and dissociation kinetics. Anthroylouabain specifically bound to the lucifer-labeled (Na,K)ATPase had a decreased quantum yield, probably due to resonance energy transfer. This suggests that the sites of lucifer attachment on beta are within energy transfer distance from the cardiac glycoside site on alpha.(ABSTRACT TRUNCATED AT 250 WORDS)
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