Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

---

Query: EC:3.4.24.27 (thermolysin)
1,894 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Chlamydomonas flagellar sexual agglutinins are responsible for the adhesion of opposite mating-type (plus and minus) gametes during the first stages of mating. Purification and partial characterization of the plus agglutinin was previously reported (Adair, W. S., C. J. Hwang, and U. W. Goodenough, 1983, Cell, 33:183-193). Here we characterize the purified minus molecule. We show it to be a high molecular weight, hydroxyproline-rich glycoprotein that migrates in the 3% stacking region of an SDS-polyacrylamide gel and is absent from two nonagglutinating minus mutants. Plus and minus agglutinins are remarkably similar, although nonidentical, in amino acid composition, molecular morphology, and reactivity in vivo and in vitro with monoclonal antibodies raised against the plus agglutinin. Moreover, the adhesiveness of both plus and minus agglutinins, when coupled to agarose beads, is abolished by thermolysin, trypsin, periodate, alkaline borohydride, reducing agents, or heat, but unaffected by exo- or endoglycosidases. The minus agglutinin, however, migrates just ahead of the plus molecule on SDS PAGE, is excluded from an anion-exchange (Mono Q) column, elutes earlier during hydrophobic interaction (Bio-gel TSK Phenyl 5PW) chromatography, and is sensitive to chymotrypsin digestion (unlike the plus agglutinin); therefore, it differs from the plus agglutinin in apparent molecular weight, net charge, relative hydrophobicity and proteolytic susceptibility. Nevertheless, our results generally demonstrate a high degree of homology between these complementary cell-cell recognition/adhesion molecules, which suggests that they are specified by genes that have a common evolutionary origin.
...
PMID:Characterization of the purified Chlamydomonas minus agglutinin. 241 36

Molecules (agglutinins) mediating mating-type-specific adhesion of Chlamydomonas reinhardtii plus and minus gametes have been purified and shown to be homologous by several criteria. Both are large, extrinsic glycoproteins, rich in hydroxyproline and serine, which to a variety of inactivating agents. Direct visualization of agglutinins by the rapid-freeze deep-etch technique of Heuser reveals that both are extremely asymmetric, fibrous molecules with similar but distinct topographies. Each has a globular head, a rigid domain, a relatively flexible region and a terminal hook. In situ images show that the molecules associate with the flagellar surface via the latter (hook) domain, projecting the globular head distally. A functional role for the head is implied from inactivation studies (thermolysin digestion and reduction/alkylation) showing a selective modification of this domain. A library of monoclonal antibodies, raised against the plus agglutinin, has been used to probe the structural organization of this molecule by immunotopographic mapping. Two Two distinct classes of monoclonal antibodies are shown to react with carbohydrate epitopes localized to the two termini (head and hook) of the plus agglutinin while a third recognizes a polypeptide determinant that repeats along the rod-like portion of the molecule. The latter class is gamete (but not mating-type)-specific while the other two classes display distinct patterns of cross reactivity. Finally, the Chlamydomonas agglutinins show a striking compositional and structural resemblance to the major cell wall glycoproteins of this organism. Wall glycoproteins, which are also rich in hydroxyproline and serine and capable of self-assembly, may therefore share a common evolutionary heritage with the agglutinins.
...
PMID:Characterization of Chlamydomonas sexual agglutinins. 386 75

Using the quick-freeze, deep-etch technique, we compare the structure of the cane-shaped plus and minus sexual agglutinin molecules purified from gametes of Chlamydomonas reinhardi. We also describe the structure of three additional gamete-specific fibrillar molecules, called short canes, loops, and crescents, which are structurally related to the agglutinins. Four non-agglutinating mutant strains are found to produce the three latter fibrils but not canes, supporting our identification of the cane-shaped molecule as the agglutinin. The heads of the plus and minus canes are shown to differ in morphology. Moreover, two treatments that inactivate the plus agglutinin in vitro--thermolysin digestion and disulfide reduction/alkylation--bring about detectable structural changes only in the head domain of the cane, suggesting that the head may play an indispensible role in affecting gametic recognition/adhesion. We also present quick-freeze, deep-etch images of the flagellar surfaces of gametic, vegetative, and mutant cells of Chlamydomonas reinhardi. The gametic flagella are shown to carry the canes, short canes, loops, and crescents present in in vitro preparations. The cane and crescent proteins self-associate on the flagellar surface into stout fibers of uniform caliber, and they align along the longitudinal axis of the flagellum. The short canes and loops co-purify with flagella but, in the presence of mica, dissociate so that they lie to the sides of the flagella. The agglutinin canes of both mating types are oriented with their hooks at the membrane surface and their heads directed outward, where they are positioned to participate in the initial events of sexual agglutination.
...
PMID:Structure of the Chlamydomonas agglutinin and related flagellar surface proteins in vitro and in situ. 403 Aug 99

Flagellar sexual agglutinins are responsible for the primary recognition and adhesion events of mating in Chlamydomonas reinhardi which culminate in zygotic union of plus and minus gametes. Recent studies in this laboratory have shown the plus agglutinin to be an extremely large (greater than 10(6) D) and asymmetric glycoprotein containing a high proportion of hydroxyproline and serine residues [14, 27, 28]. This paper reports an improved method for in vitro investigations of the adhesive nature of this molecule. Purified agglutinin is covalently attached to an insoluble (Affi-gel 15 agarose bead) support and shown to retain potent agglutination activity when presented to living minus gametes, which rapidly and extensively adhere to the coated bead surface by their flagella. The specificity of the response is documented by the lack of interaction of plus gametes with the immobilized plus agglutinin (IA+). Using this simple yet sensitive bioassay, we have subjected IA+ beads to various enzymatic, chemical and physical treatments and assessed the effects on agglutinin activity. These studies reveal that Chlamydomonas plus agglutinin is sensitive to thermolysin or trypsin digestion, alkaline borohydride reduction, periodate oxidation, thiol reduction and heating at 65 degrees C, but unaffected by treatment with chymotrypsin, endo- or exoglycosidases, or incubation with isolated minus agglutinin. The implications of these results for agglutinin structure and possible functional interactions in initial recognition/adhesion events are discussed.
...
PMID:Chlamydomonas agglutinin conjugated to agarose beads as an in vitro probe of adhesion. 636 5

Once imported into the stroma, nuclear encoded proteins of the chloroplast have to be routed to their final compartment, e.g. the thylakoid membranes. Four different pathways have been reported for the translocation of precursor proteins across and for the integration of mature proteins into the thylakoid membranes in higher plants. To study the sorting of precursor proteins in chloroplasts of higher plants the generation of an in vitro system using isolated intact thylakoid membrane vesicles was of major importance. Here we report the isolation of intact thylakoid membrane vesicles of the green algae Chlamydomonas reinhardii for the generation of a similar algal system. Further we show successful transport of several Chlamydomonas precursor proteins into isolated thylakoids: Lumenal precursors were translocated into the vesicles resulting in the accumulation of their mature, thermolysin-insensitive forms and thylakoid membrane proteins were specifically integrated into isolated Chlamydomonas thylakoid membranes.
...
PMID:Isolation of thylakoid membrane vesicles of Chlamydomonas reinhardii chloroplasts that are able to integrate and import in vitro synthesized precursor proteins. 929 98

A 29.5 kDa intracellular alpha-type carbonic anhydrase, designated Cah3, from the unicellular green alga Chlamydomonas reinhardtii is the first of this type discovered inside a photosynthetic eukaryote cell. We describe the cloning of a cDNA which encodes the protein. Immunoblot studies with specific antibodies raised against Cah3 demonstrate that the polypeptide is associated exclusively with the thylakoid membrane. The putative transit peptide suggests that Cah3 is directed to the thylakoid lumen, which is confirmed further by the presence of mature sized Cah3 after thermolysin treatment of intact thylakoids. Complementation of the high inorganic carbon concentration-requiring mutant, cia-3, with a subcloned cosmid containing the cah3 gene yielded transformants that grew on atmospheric levels of CO2 (0.035%) and contained an active 29.5 kDa alpha-type carbonic anhydrase. Although, cia-3 has reduced internal carbonic anhydrase activity, unexpectedly the level of Cah3 was similar to that of the wild-type, suggesting that the mutant accumulates an inactive Cah3 polypeptide. Genomic sequence analysis of the mutant revealed two amino acid changes in the transit peptide. Results from photosynthesis and chlorophyll a fluorescence parameter measurements show that the cia-3 mutant is photosynthetically impaired. Our results indicate that the carbonic anhydrase, extrinsically located within the chloroplast thylakoid lumen, is essential for growth of C.reinhardtii at ambient levels of CO2, and that at these CO2 concentrations the enzyme is required for optimal photosystem II photochemistry.
...
PMID:A novel alpha-type carbonic anhydrase associated with the thylakoid membrane in Chlamydomonas reinhardtii is required for growth at ambient CO2. 948 18

The role of hexokinase in carbohydrate degradation in isolated, intact chloroplasts was evaluated. This was accomplished by monitoring the evolution of 14CO2 from darkened spinach (Spinacia oleracea), maize (Zea mays) mesophyll, and Chlamydomonas reinhardtii chloroplasts externally supplied with 14C-labeled fructose, glucose, mannose, galactose, maltose, and ribose. Glucose and ribose were the preferred substrates with the Chlamydomonas and maize chloroplasts, respectively. The rate of CO2 release from fructose was about twice that from glucose in the spinach chloroplast. Externally supplied ATP stimulated the rate of CO2 release. The pH optimum for CO2 release was 7.5 with ribose and fructose and 8.5 with glucose as substrates. Probing the outer membrane polypeptides of the intact spinach chloroplast with two proteases, trypsin and thermolysin, decreased 14CO2 release from glucose about 50% but had little effect when fructose was the substrate. Tryptic digestion decreased CO2 release from glucose in the Chlamydomonas chloroplast about 70%. 14CO2 evolution from [1-14C]-glucose-6-phosphate in both chloroplasts was unaffected by treatment with trypsin. Enzymic analysis of the supernatant (stroma) of the lysed spinach chloroplast indicated a hexokinase active primarily with fructose but with some affinity for glucose. The pellet (membranal fraction) contained a hexokinase utilizing both glucose and fructose but with considerably less total activity than the stromal enzyme. Treatment with trypsin and thermolysin eliminated more than 50% of the glucokinase activity but had little effect on fructokinase activity in the spinach chloroplast. Tryptic digestion of the Chlamydomonas chloroplast resulted in a loss of about 90% of glucokinase activity.
...
PMID:Respiration of Sugars in Spinach (Spinacia oleracea), Maize (Zea mays), and Chlamydomonas reinhardtii F-60 Chloroplasts with Emphasis on the Hexose Kinases. 1223 48

The major structural glycoprotein of the cell wall of Chlamydomonas reinhardii has a protein core, at least 50% of which is in the unusual polyproline II conformation. This has been demonstrated by examining the circular dichroism of the cell wall, its constituent glycoproteins, and thermolysin released wall glycopeptides. One of these glycopeptides, T2, has a high hydroxyproline and sugar content, and possesses upward of 85% polyproline II structure. The main extracellular matrix glycoprotein therefore has a rigid, rod-like structure and the significance of this and its relation to higher plant cell wall glycoproteins is discussed. The unusual conformation appears to confer great stability on the glycoprotein as it is unchanged either by certain denaturing agents or during the transition from protomer to assembled cell wall.
...
PMID:Glycoprotein conformation in plant cell walls : Circular dichroism reveals a polyproline II structure. 2431 62

The main structural glycoprotein of the cell wall of Chlamydomonas reinhardii has been cleaved by thermolysin into glycopeptides which have been separated into three fractions, T1, T2 and T3. These correspond to three distinct domains within the glycoprotein, characterized by the asymmetric distribution of both sugars and amino acids, in particular hydroxyproline. T2 is very rich in hydroxyproline (43 mol %) and is highly glycosylated, while T3 is poor in hydroxyproline and contains very little carbohydrate. The results are discussed in terms of cell wall glycoproteins and their function.
...
PMID:Hydroxyproline: its asymmetric distribution in a cell wall glycoprotein. 2431 79

---