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1.
Complete nucleotide sequences of three kinds of rice ß-tubulincDNA clones (pTUB22, R1623 and R2242) were determined. Southernhybridization indicated that these ß-tubulins consistof one gene family. Using RFLP mapping, these three ß-tubulincDNAs were mapped to different chromosomes indicating at leastthree loci for the ß-tubulin gene. The deduced aminoacid sequences of these cDNAs showed a high similarity to otherplant ß-tubulins. The asparagine residue located atthe 100th amino acid from the Nterminus of plant ß-tubulinswas also conserved with these three ß-tubulins. Thisasparagine is thought to be responsible for the sensitivityagainst rhizoxin, the toxin of the pathogen of rice seedlingblight, Rhizopus sp. a soil-borne microorganism. Expressionof the three ß-tubulin genes was analyzed by Northernblotting and all three clones were expressed in root, the possibletarget tissue of rhizoxin. These results suggest that theseclones are candidates of ß-tubulins targeted by rhizoxin.  相似文献   

2.
We have isolated ß-trace protein from cerebrospinalfluid, serum, plasma, and urine samples of normal volunteersand sera and hemofiltrate of patients with chronic renal failure.Blood-derived and urinary ß-trace have significantlyhigher molecular weights than their cerebrospinal fluid counterpart,the amino acid sequences being identical. Oligosaccharide structuralanalysis revealed these molecular weight differences to be dueto different N-glycosylation. ß-Trace from hemofiltrateand urine has larger sugar chains and concurrently significantlyhigher sialylation than cerebrospinal fluid-ß-tracewhich bears truncated "brain-type" oligosaccharide chains (publishedpreviously). ß-Trace concentrations were about 40ng/ml for normal sera and plasma. 2000–6000 ng/ml weremeasured in sera of dialysis patients whereas in normal humancerebrospinal fluid, ß-trace concentration was about8000 ng/ml. A reduced amount of 900 ng/ml was found in a singlecase of hydrocephalus cerebri. The sialylated glycoforms ofß-trace detected in the blood are presumably derivedfrom resorbed cerebrospinal fluid protein whereas ß-TP-mole-culesbearing asialo-oligosaccharides are absent due to their hepaticclearance. The residual, sialylated ß-TP-species areprobably eliminated from the blood via the kidney. This physiologicalclearance mechanism for the sialylated glycoforms is disturbedin hemodialysis patients resulting in about 100-fold elevatedserum concentrations. These results let us suggest ß-tracemay become a useful novel diagnostic protein in renal diseases. "brain-type" N-glycosylation hepatic clearance human ß-trace kidney failure serum glycoproteins  相似文献   

3.
Using DEAE-cellulose two distinct ß-glucosidase enzymeshave been identified in white clover; one form is primarilyassociated with the seed, the other with young leaves. Evidenceis presented for the separate nature of ß-glucosidaseand ß-galactosidase activity in dry seed flour andin young leaf tissue. These results are considered in relationto the function of the Li locus in white clover, which is shownto control both ß-glucosidase and ß-galactosidaseactivity in expanding leaves.  相似文献   

4.
The oligosaccharide structures of glycolipids from cercariaeof the human blood fluke, Schistosoma mansoni, were analyzedin the form of their corresponding, pyridylaminated oligosaccharidesby methylation analysis, partial hydrolysis, exoglycosidasetreatment, on-target exoglyco­sidase cleavage and matrix-assistedlaser desorption/ionization time-of-flight mass spectrometry.The six, dominant chemical structures present have been determinedas: GalNAc(ß1–4)Glc1-ceramide; GlcNAc(ß1–3)Gal­NAc(ß1–4)Glc1-ceramide;Gal(ß1–4)GlcNAc(ß1–3)Gal­NAc(ß1–4)Glc1-ceramide;Gal(ß1–4)[Fuc(  相似文献   

5.
The gene encoding a ß-galactosidase from Xanthomonasmanihotis was cloned into Escherichia coli. The gene resideson a 2.4 kb DNA fragment which was isolated from a partial Sau3Alibrary in the cloning vector pUC19 using 5-bromo-4-chloro-3-indolyl-ß-D-galactopyranoside(X-gal) as the selection. The enzyme produced by the clone hasa specificity for ß1-3->ß1-4-linked galactose.The nucleotide sequence of the gene was determined. The deducedprotein sequence contained 597 amino acids yielding a monomericmolecular mass of 66 kDa. The cloned ß-galactosidaseshowed no similarity to any known prokaryotic ß-galactosidase.However, extensive similarity was observed with eukaryotic ß-galactosidasesfrom animals, plants and fungi. The strongest similarity waswith the ß-galactosidases found hi the human and mouselysosomes (42 and 41% identity, respectively). Alignment ofthe X.manihotis and eukaryotic ß-galactosidase sequencesrevealed seven highly conserved domains common to each protein.Additionally, Domain 1 in X.manihotis showed similarity to regionswithin catalytic domains from seven xylanases and cellulasesbelonging to family 10 of glucosyl hydrolases. A region spanningDomain 2 showed similarity to the catalytic domain of endo ß1-3glucanases from tobacco and barley. cellulase ß-galactosidase GM$$$gangliosidosis Morquio B syndrome Xanthomonas  相似文献   

6.
Xyloglucan 4-ß-D-glucosyltransferase, an enzyme responsiblefor the formation of the xyloglucan backbone, in a particulatepreparation of soybean cells has been compared with ß-1,4-glucan4-ß-D-glucosyltransferase of the same origin. Thefollowing observations indicate that the enzyme system of xyloglucansynthesis does not contain ß-1,4-glucan 4-ß-D-glucosyltransferaseactivity, although both enzymes transfer the glucosyl residuefrom UDP-glucose to form the ß-1,4-glucosidic linkage:1. The incorporation of [14C]glucose into xyloglucan dependedon the presence of UDP-xylose in the incubation mixture. 2.No measurable amount of radioactivity was incorporated fromUDP-[14C]xylose into the cello-oligosaccharides, although theincorporation of [14C]xylose into xyloglucan depended on thepresence of UDP-glucose in the incubation mixture (Hayashi andMatsuda 1981b). 3. The activity of xyloglucan 4-ß-D-glucosyltransferasewas stimulated more strongly by Mn2+ than by Mg2+, whereas Mg2+was the most active stimulator for the activity of ß-1,4-glucan4-ß-D-glucosyltransferase. 4. An addition of GDP-glucose(100 µM) to the incubation mixture inhibited the activityof xyloglucan 4-ß-D-glucosyltransferase by 17%, whereasthe activity of ß-1,4-glucan 4-ß-D-glucosyltransferasewas inhibited 56% under the same conditions. 5. Irpex exo-cellulasedid not hydrolyze the xyloglucan synthesized in vitro. 6. Theß-1,4-glucan synthesized in vitro was not a branchedxyloglucan because it gave no 2,3-di-O-methyl glucose derivativeon methylation analysis. 7. Pulse-chase experiments indicatedthat the ß-1,4-glucan was not transformed into thexyloglucan. The subcellular distribution of the xyloglucan synthase, however,was similar to that of the ß-1,4-glucan synthase (Golgi-located1,4-ß-D-glucan 4-ß-D-glucosyltransferase).Thus, it appears that the latter enzyme is located at a siteclose to xyloglucan synthase and is set aside for the assemblyof these polysaccharides into the plant cell surface. (Received May 21, 1981; Accepted October 13, 1981)  相似文献   

7.
In the cotyledons of mustard seedlings light mediates an increasein ß-amylase [EC 3.2.1.2 [EC] ] activity via agency of phytochrome.In order to understand the functional significance of abovephotoresponse, the relationship between light induced ß-amylaseincrease, chloroplast development and starch content of cotyledonwas investigated. The application of SAN 9789 a chlorosis inducinginhibitor to mustard seedlings, though destroyed chloroplast,had no effect on light mediated increase in ß-amylaseindicating the lack of functional interrelationship betweenchloroplast development and ß-amylase increase. Thesubcellular localization studies revealed that ß-amylaseis a cytosolic enzyme. Additionally, the increase in the levelof ß-amylase had no relationship with in vivo starchlevel, which was present only in trace amounts. The noncorrelationof the photoregulated ß-amylase increase with thestarch content and its extra-chloroplastic localization indicatesthat ß-amylase does not participate in the mobilizationof plastidic starch in mustard cotyledon. (Received December 28, 1988; Accepted September 8, 1989)  相似文献   

8.
Increasing ß-amylase activity in wheat (Triticum aestlvum,var. Star) seedling shoot tissues was consistently accompaniedby the development of a characteristic polymorphism of the enzyme,as shown by electrophoresis employing amylopectin-containingpolyacrylamide gels. Very young shoot tissue contained one principalform of the enzyme (ß1), whereas two other major forms(ß2, ß3) appeared complementary to thisupon further growth. In vitro incubation experiments indicatedthat the polymorphism arose via a probably proteolytic conversionof ß1 into ß2 and ß3. The conversioninvolved neither an activation of ß-amylase nor asignificant modification of ß-amylase component plvalues. The electrophoretic ß-amylase patterns ofsubcellular leaf compartments suggested that ß1 issynthesized in the cytoplasm of leaf mesophyfi cells and thatthe other forms arise upon transfer of this ‘primary’form into the vacuole. The development of shoot ß-amylaseactivity did not require light, but appeared to be under thenegative control of the chloroplast and was stimulated by mineralnutrients. No clear relationship between ß-amylaseactivity and starch metabolism was evident, since the leaf activitywas largely absent from mesophyll protoplasts, could not beunequivocally demonstrated in the mesophyll chioroplasts, anddeveloped regardless of whether the tissues contained significantamounts of starch or not. Key words: Wheat, leaves, ß-amylase, polymorphism, compartmentation  相似文献   

9.
Lymphocytic ß1,4-galactosyltransferase (ß1,4-GalTase,EC 2.4.1.38 [EC] ) activity was measured in B cells using a neoglycoprotein,N-acetylglucosamine-phenylisothlocyanate-bovine serum albumin(GlcNAc-pITC-BSA), as an acceptor substrate in a novel enzyme-linkedimmunosorbent assay (ELISA)-based method. This assay provedto be much simpler to use than the lengthy and expensive radiochemicalassays commonly used, and has the additional advantage thatit specifically detects the enzyme mediating transfer via theGalß1,4GlcNAc linkage. A F(ab')2 antibody againstGalTase was able to specifically inhibit the reaction. Greatersensitivity for ß1,4-GalTase activity was obtainedusing GlcNAc-pITC-BSA as an acceptor substrate rather than ovalbumin.Low levels of ß-galactosidase activity were detectablein lymphocyte cell lysates at acidic pH, although such activitywas not detectable at the neutral pH used in the ß1,4-GalTaseactivity assay. Using this assay with the GlcNAc-pITC-BSA acceptor,similar ß1,4-GalTase activities were observed in CD19+B cells from patients with rheumatoid arthritis (RA) to thoseseen in normal control individuals. ELISA ß1,4-galactosyltransferase lymphocyte neoglycoprotein radiochemical  相似文献   

10.
We previously showed that human melanoma, CHO and other cellscan convert ß-xylosides into structural analogs ofganglioside GM3. We have investigated several potential acceptorsincluding a series of n-alkyl-ß-D-glucosides (n =6–9). All were labeled with 3H-galactose when incubatedwith human melanoma cells. Octyl-ß-D-glucoside (GlcßOctyl)was the best acceptor, whereas neither octyl--D-glucoside norN-octanoyl-methylglucamine (MEGA 8) were labeled. Analysis ofthe products by a combination of chromatographic methods andspecific enzyme digestions showed that the acceptors first receiveda single Galß1,4 residue followed by an 2,3 linkedsialic acid. Synthesis of these products did not affect cellviability, adherence, protein biosynthesis, or incorporationof radio-labeled precursors into glycoprotein, glycolipid orproteoglycans. To determine which ß1,4 galactosyltransferase synthesized Galß1,4GlcßOctyl,we analyzed similar incubations using CHO cells and a mutantCHO line (CHO 761) which lacks GAG-core specific ß1,4galactosyltransferase. The mutant cells showed the same levelof incorporation as the control, eliminating this enzyme asa candidate. Thermal inactivation kinetics using melanoma cellmicrosomes and rat liver Golgi to galactosylate GlcßOctylshowed the same half-life as UDP-Gal:GlcNAc ß1,4 galactosyltransferase,whereas LacCer synthase was inactivated at a much faster rate.We show that GlcßOctyl is a substrate for purifiedbovine milk UDP-Gal:GlcNAc ß1,4 galactosyltransferaseFurthermore, the galactosylation of GlcßOctyl by CHOcell microsomes can be competitively inhibited by GlcNAc orGlcNAcßMU . These results indicate that UDP-Gal:GlcNAcß1,4 galactosyltransferase is the enzyme used forthe synthesis of the alkyl lactosides when cells or rat liverGolgi are incubated with alkyl ß glucosides. alkylglucosides galactosyltransferase glycolipid artificial acceptors  相似文献   

11.
ß-Naphthyl di-, tri- or tetraphosphate inhibits photophosphorylationof spinach chloroplasts competitively with ADP, whereas ß-naphthylmonophosphate inhibits it competitively with Pi. The apparentKi of ß-naphthyl diphosphate for the ADP site was300 µM and that of ß-naphthyl monophosphatefor the Pi site was 1.45 mM. At 10 mM, both of these two organicphosphates inhibited photophosphorylation more than 90%. Noneof the above four ß-naphthyl phosphates were phosphorylatedby chloroplasts. ß-Naphthyl di-, tri- or tetraphosphateinhibits ATPase activity of isolated chloroplast coupling factor1 (CF1) (EC 3.6.1.3 [EC] ) and light-triggered ATPase activity ofchloroplasts competitively with ATP, whereas ß-naphthylmonophosphate acts non-competitively. None of the four ß-naphthylphosphates were hydrolyzed by these two ATPase activities. Atconcentrations equal to ADP or ATP, ß-naphthyl di-,tri- or tetraphosphate inhibited these three reactions in theorder; ATPase of isolated CF1> photophosphorylation>light-triggeredATPase of chloroplasts. The results suggest that the effect of the monophosphate isprincipally on the Pi site(s) and that of the di-, tri- or tetraphosphateis on the adenine nucleotide site(s) on the active center ofCF1. 1Part of this work was reported at the 1979 Annual Meeting ofthe Japanese Society of Plant Physiologists (Nagoya, April 7,1979) and the 52nd Annual Meeting of the Japanese BiochemicalSociety (Tokyo, October 7, 1979). This work was supported inpart by Grants-in-Aid for Scientific Research from the Ministryof Education, Science and Culture, Japan (311808 and 311909). (Received November 14, 1979; )  相似文献   

12.
The integuments of extant vertebrates display a variety of epidermalappendages whose patterns, morphology and terminal differentiation(epidermal keratins) depend upon interactions between ectodermal(epidermis) and mesodermal (dermis) tissues. In reptiles andbirds, appendage morphogenesis precedes terminal differentiation.Studies have demonstrated that appendage morphogenesis influencesthe expression of the appendage specific keratin genes. However,little is known about the nature of the structural genes expressedby the epidermal appendages of reptiles. How pattern formationand/or appendage morphogenesis influence terminal differentiationof reptilian appendages is not known. The epidermal appendages of reptiles and birds are characterizedby the presence of both alpha () and beta (ß) typekeratin proteins. Studies have focused on the genes of avianß keratins because they are the major structural proteinsof feathers. The occurrence of ß keratin proteinsin the scales and claws of both birds and reptiles and theirimmunological cross-reactivity suggest that the genes for reptilianß keratins may be homologous with those of birds.In bird appendages, the ß keratins are the productsof a large family of homologous genes. Specific members of thisgene family are expressed during the development of each appendage.Recent sequence analyses of feather ß keratins, fromdifferent orders of birds, demonstrate that there is more diversityat the DNA level than was implied by earlier protein sequencingstudies. Immunological techniques show that the same antibodies thatreact with the epidermal ß keratins of the chicken(Gallus domesticus) react with the epidermal ß keratinsof American alligators (Alligator mississippiensis). Furthermore,a peptide sequence (20 amino acids) from an alligator claw ßkeratin is similar to a highly conserved region of avian claw,scale, feather, and feather-like ß keratins. Theseobservations suggest that the ß keratin genes of avianepidermal appendages have homologues in the American alligator.Understanding the origin and evolution of the ß keratingene families in reptiles and birds will undoubtedly add toour understanding of the evolution of skin appendages such asscales and feathers.  相似文献   

13.
The effect of cycloheximide (10–5 M) and cordycepin (10–4M) used as protein and RNA synthesis inhibitors, respectively,on auxin action in noncellulosic ß-glucan degradationof Avena coleoptile cell wall was investigated. Both depressedauxin-induced ßglucan degradation of the cell wallas well as auxin-induced elongation and cell wall loosening,suggesting that the process of ß-glucan degradationof the cell wall is closely associated with cell wall looseningand that auxin enhances the activity of an enzyme for ß-glucandegradation through de novo synthesis of RNA and protein butnot through activation of the enzyme in situ. Kinetic studywith the inhibitors showed that RNA metabolism involved in ß-glucandegradation was stimulated by auxin treatment of only 15 minwhile a longer lag phase (about 1 hr) existed for the synthesisof the enzyme. (Received December 16, 1978; )  相似文献   

14.
ß-Tubulins from fourteen benomyl-resistant strainsof the homobasidiomycete Coprinus cinereus, which carry thebenA, benB, benC or benD mutations, were analyzed by urea SDS-PAGEor isoelectric focusing and subsequent immunoblot analysis.Electrophoretic aberrations in a major ß-tubulin isotype,denoted ß1 were found in two strains, BEN154 and BEN215,both of which carry benomyl resistance mutations in benA + Theaberrations of ß1 in BEN154 and BEN215 cosegregatedwith benomyl resistance among the progeny of outcrosses of BEN154 and BEN215 to wild type, indicating that the ß1aberrations were caused by the benA mutations. Both the mutantand wild-type ß1 tubulins were present in the heterozygousdikaryons, BEN 154/wild-type and BEN215/wild-type, ruling outpost-translational modification as a possible cause for theaberrations in ß1. Thus, we conclude that benA isa structural gene for ß1. Transhyphal migration ofnuclei in dikaryosis was blocked in the mycelia of BEN 154 andin its progeny that carried benA (ß1 mutation), demonstratingthat microtubules are involved in the migration process. Nuclearmigration in dikaryosis seems to differ in terms of mechanism,at least in part, from the migration of tetrad nuclei from basidiainto prespores during formation of basidiospores and from themigration of nuclei from basidiospores into hyphae during germination,because a benA mutation blocked the former without affectingthe latter two processes. (Received May 19, 1989; Accepted August 30, 1989)  相似文献   

15.
The effect of ß-carotene on light-induced lipid peroxidationwas examined in heptane-extracted chloroplasts. Lipid peroxidationwas suppressed by 50% when the extracted chloroplasts were reconstitutedwith ß-carotene. However, ß-carotene addedto unextracted chloroplasts did not affect the lipid peroxidation.As the molal ratio of ß-carotene to chlorophyll duringthe reconstitution increased, the rate of the lipid peroxidationdecreased but became independent of the molal ratio above thevalue of 0.3. The results led to the conclusion that ß-carotenein thylakoid membranes functions as an efficient quencher ofsinglet molecular oxygen which induces the lipid peroxidation. (Received April 20, 1978; )  相似文献   

16.
Enzymatic 3-O-sulfation of terminal ß-Gal residueswas investigated by screening sulfotransferase activity presentin 37 human tissue specimens toward the following synthesizedacceptor moieties: Galß1,3GalNAc-O-Al, Galß1,4GlcNAcß-O-Al,Galß1,3GlcNAcß-O-Al, and mucin-type Galß1,4GlcNAcß1,6(Galß1,3)GalNAc-O-Bnstructures containing a C-3 methyl substituent on either Gal.Two distinct types of Gal: 3-O-sulfotransferases were revealed.One (Group A) was specific for the Galß1, 3GalNAc-linkage and the other (Group B) was directed toward the Galß1,4GlcNAcbranch ß1,6 linked to the blood group T hapten. Enzymeactivities found in breast tissues were unique in showing astrict specificity for the T-hapten. Galß-O-allylor benzyl did not serve as acceptors for Group A but were veryactive with Group B. An exainination of activity present insix human sera revealed a specificity of the serum enzyme towardß1,3 linked Gal, particularly, the T-hapten withoutß1,6 branching. Group A was highly active toward T-haptenlacrylamidecopolymer, anti-freeze glycoprotein, and fetuin O-glycosidicasialo glycopeptide; less active toward fetuin triantennaryasialo glycopeptide; and least active toward bovine IgG diantennaryglycopeptide. Group B was moderately and highly active, respectively,with the latter two glycopeptides noted and least active withthe first two. Competition experiments performed with Galß1,3GaLNAc-O-Aland Galß1,4GlcNAcß1,6(Galß1,3)GalNAc-O-Bnhaving a C-3 substituent (methyl or sulfate) on either Gal reinforcedearlier findings on the specificity characteristics of GroupA and Group B. Group A displayed a wider range of optimal activity(pH 6.0–7.4), whereas Group B possessed a peak of activityat pH 7.2. Mg2+ stimulated Group A 55% and Group B 150%, whereasMn+2 stimulated Group B 130% but inhibited Group A 75%. Ca2+stimulated Group B 100% but inhibited Group A 35%. Group A andGroup B enzymes appeared to be of the same molecular size (<100,000Da) as observed by Sephacryl S-100 HR column chromatography.The following effects upon Gal: 3-O- sulfotransferase activitiesby fucose, sulfate, and other substituents on the carbohydratechains were noted. (1) A methyl or GlcNAc substituent on C-6of GalNAc diminished the ability of Galß1,3GalNAc-O-Alto act as an acceptor for Group A. (2) An 1,3-fucosyl residueon the ß1,6 branch in the mucin core structure didnot affect the activity of Group A toward Gal linked ß1,3to GalNAc-. (3) Lewis x and Lewis a terminals did not serveas acceptors for either Group A or B enzymes. (4) Eliminationof Group B activity on Gal in the ß1,6 branch owingto the presence of a 3-fucosyl or 6-sulfo group on GlcNAc didnot hinder any action toward Gal linked ß1,3 to GalNAc.(5) Group A activity on Gal linked ß1,3 to GalNAcremained imaffected by 3'-sulfation of the ß1,6 branch.The reverse was true for Group B. (6) The acceptor activityof the T-hapten was increased somewhat upon C-6 sulfation ofGalNAc, whereas, C-6 slalylation resulted in an 85% loss ofactivity. (7) A novel finding was that Galß1,4GlcNAcß-O-Aland Galß1,3GlcNAcß-O-M, upon C-6 sulfationof the GlcNAc moiety, became 100% inactive and 5- to 7-foldactive, respectively, in their ability to serve as acceptorsfor Group B. human tissues glycoprotein galactose:sulfotransferase specificities kinetic properties  相似文献   

17.
The clan GH-A is a group of more than 200 proteins representingnine established families of glycosyl hydrolases that act ona large variety of substrates. This clan includes five enzymesimplicated in lysosomal storage diseases: ß-glucuronidase(Sly disease), ß-glucocerebrosidase (Gau-cher disease),ß-galactosidase (Landing disease and Morquio typeB disease), ß-mannosidase (mannosidosis) and  相似文献   

18.
Although it has been long accepted that innervation by a tastenerve is essential for maintenance of taste buds, it is notclear what role, if any, innervation plays in the morphogenesis oftaste papillae and taste bud development. The following studywas undertaken to determine what effects lack of sensory innervationhave on the development of taste papillae and the formationof taste buds in the mouse. Timed-pregnant female mice (n =3) at gestational day 12 (gd12) were anesthetized and a 1 µlsolution (1 µg/µl) of ß-bungarotoxin (ß-BTX),a neurotoxin that disrupts sensory and motor neuron development,was injected into the amniotic cavity of two embryos per dam.Two shams were injected with PBS. Fetuses were harvested atgd18, 1 day before birth, and four ß-BTX-injected embryos,two shams and two controls were fixed in buffered paraformaldehyde.Serial sections were examined for the presence and morphologyof taste papillae and taste buds. No nerve profiles were observedin ß-BTX-injected tongues. Although circumvallate papillaewere present on ß-BTX tongues, only five fungiform papillaecould be identified. Taste buds were present on a large percentageof fungiform papillae profiles (24% and on circumvallate papillaein sham and control fetuses; in contrast, no taste buds wereassociated with taste papillae in ß-BTX fetuses. Theseresults implicate a significant role for innervation in tastepapillae and taste bud morphogenesis.  相似文献   

19.
Lupinus albus L. developing cotyledons 35 d after floweringcontained a major polypeptide of-average Mr 64000, immunologicallyrelated to conglutin ß, the 7S storage globulin ofthis seed. This polypeptide decreased during seed maturation,without completely disappearing in the mature seed. This dropwas accompanied by the formation of polypeptide fragments typicalof the mature conglutin ß. The 64000 polypeptide hasbeen identified as the precursor polypeptide of conglutin ß. Undenatured conglutin ß precursor, purified by ionexchange chromatography and size exclusion chromatography, showedsurface and association properties identical to the mature conglutinß molecule. The precursor oligomer, of Mr 190000,consisted of an association of three 64000 subunits. They stronglyreacted with concanavalin A indicating the presence of covalentlylinked carbohydrate. Tryptic treatment of the undenatured conglutin ß precursorled to the accumulation of a relatively stable 59000 polypeptidewhich was cleaved later on and produced three large polypeptidefragments differing from the mature conglutin ß polypeptides. Key words: Conglutin ß, precursor, developing seeds, Lupinus albus L.  相似文献   

20.
Developing seeds of soya bean cultivars Chestnut and Altonahave only trace amounts of ß-amylase activity. Comparedto a standard variety, Wells, ß-amylase activitieswere 200–300 times lower in Chestnut and Altona. Nevertheless,Chestnut and Altona accumulate starch as a transient reservematerial which is utilized later in development. Seeds of Chestnutand Altona also produce starch early in germination which subsequentlydeclines after the 4th day of germination. Throughout germinationß-amylase levels in these cultivars are about 300-foldlower than that observed in Wells, which has a similar patternof starch metabolism. Widely varying levels of ß-amylasein both developing and germinating seeds appear to be unrelatedto starch metabolism which is very similar in all cultivarsstudied. Consequently, ß-amylase activity seems irrelevantto starch metabolism in the soya bean seed. starch, ß-amylase, Glycine max. (L.), Merr, soya bean  相似文献   

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