Isolation and characterization of Glu-1 genes from the St genome of Pseudoroegneria libanotica

The St genome, which is present in nearly half of all Triticeae species, originates from the genus Pseudoroegneria. However, very little is known about the high molecular weight (HMW) subunits of glutenin which are encoded by the St genome. In this paper, we report the isolation from Pd. libanotica of four sequences encoding HMW subunits of glutenin. The four genes were all small compared to standard glutenin genes. All four sequences resemble y-type glutenins rather than x-types. However, their N-terminal domains contain a glutamine residue which is present in all x-type, but very few y-type subunits, and their central repetitive domains included some irregular motifs. The indication is therefore that the Glu-1St genes evolved earlier than other modern day homoeologues, so that they represent an intermediate state in the divergence between x- and y-type subunits. No x-type Glu-1St subunit genes were identified.     

St基因组中的CRW同源序列在偃麦草中的FISH分析

为了确定十倍体长穗偃麦草(Thinopyrum ponticum, Liu & Wang)和六倍体中间偃麦草(Th. intermedium, [Host] Barkworth & Dewey )的基因组组成, 根据野生一粒小麦(Triticum boeoticum)着丝粒自主型反转录转座子(CRW)序列设计特异引物, 以二倍体拟鹅观草(Pseudoroegneria spicata, Á Löve )基因组 DNA为模板进行PCR扩增, 筛选到一条St基因组着丝粒区相对特异反转录转座子的部分序列pStC1, 长度为1.755 kb (GenBank登录号: FJ952565), 其中有800 bp与小麦着丝粒反转录转座子(CRW)的LTR区高度同源, 另有小部分片段与其外壳蛋白编码基因(gag)部分同源, 并且包含一段富含AGCAAC碱基的重复序列。以pStC1为探针, 对十倍体长穗偃麦草的FISH检测结果显示其基因组组成为两个St组3个E组(St₁St₂E^eE^bE^x); pStC1与中间偃麦草杂交时, 不仅St基因组上有强烈的荧光信号, 而且E基因组一些染色体的近着丝粒区域也有杂交信号, 说明偃麦草属异源多倍体物种在其形成及进化过程中St与E基因组之间在着丝粒及近着丝粒相关区域可能存在协同进化。     

Isolation and characterization of ftsZ alleles that affect septal morphology.

The ftsZ gene encodes an essential cell division protein that specifically localizes to the septum of dividing cells. In this study we characterized the effects of the ftsZ2(Rsa) mutation on cell physiology. We found that this mutation caused an altered cell morphology that included minicell formation and an increased average cell length. In addition, this mutation caused a temperature-dependent effect on cell lysis. During this investigation we fortuitously isolated a novel temperature-sensitive ftsZ mutation that consisted of a 6-codon insertion near the 5' end of the gene. This mutation, designated ftsZ26(Ts), caused an altered polar morphology at the permissive temperature and blocked cell division at the nonpermissive temperature. The altered polar morphology resulted from cell division and correlated with an altered geometry of the FtsZ ring. An intragenic cold-sensitive suppressor of ftsZ26(Ts) that caused cell lysis at the nonpermissive temperature was isolated. These results support the hypothesis that the FtsZ ring determines the division site and interacts with the septal biosynthetic machinery.     

Isolation and characterization of novel neutral glycolipids from Thermoplasma acidophilum.

Several novel neutral glycolipids (GL-1a, GL-1b, GL-2a, GL-2b and GL-2c) were isolated from Thermoplasma acidophilum by high-performance liquid chromatography using phenylboronic acid-silica and preparative thin-layer chromatography. The tentative structures of these lipids were characterized by the combination of gas-liquid chromatography, the methylation procedure, and (1)H-NMR and FAB-mass spectrometries. The lipophilic portion of the neutral glycolipids was composed of a simple molecular species named caldarchaeol (dibiphytanyl-diglycerol tetraether). The sugar moieties of these glycolipids were composed of gulose and glucose which formed monosaccharide residues on one side or both sides of the core lipids. Gulose was attached to the terminal glycerol OH group of the core lipid with a beta-configuration and glucose being attached with an alpha-configuration. The proposed structure of GL-1a was gulosylcaldarchaeol and that of GL-1b was glucosylcaldarchaeol. The structures of GL-2a, GL-2b, and GL-2c were the analogs of the caldarchaeol derivatives attached by a variety of gulosyl residues or glucosyl residues on both sides of the terminal OH groups.     

Isolation and characterization of a novel calmodulin-binding protein from potato.

Tuberization in potato is controlled by hormonal and environmental signals. Ca(2+), an important intracellular messenger, and calmodulin (CaM), one of the primary Ca(2+) sensors, have been implicated in controlling diverse cellular processes in plants including tuberization. The regulation of cellular processes by CaM involves its interaction with other proteins. To understand the role of Ca(2+)/CaM in tuberization, we have screened an expression library prepared from developing tubers with biotinylated CaM. This screening resulted in isolation of a cDNA encoding a novel CaM-binding protein (potato calmodulin-binding protein (PCBP)). Ca(2+)-dependent binding of the cDNA-encoded protein to CaM is confirmed by (35)S-labeled CaM. The full-length cDNA is 5 kb long and encodes a protein of 1309 amino acids. The deduced amino acid sequence showed significant similarity with a hypothetical protein from another plant, Arabidopsis. However, no homologs of PCBP are found in nonplant systems, suggesting that it is likely to be specific to plants. Using truncated versions of the protein and a synthetic peptide in CaM binding assays we mapped the CaM-binding region to a 20-amino acid stretch (residues 1216-1237). The bacterially expressed protein containing the CaM-binding domain interacted with three CaM isoforms (CaM2, CaM4, and CaM6). PCBP is encoded by a single gene and is expressed differentially in the tissues tested. The expression of CaM, PCBP, and another CaM-binding protein is similar in different tissues and organs. The predicted protein contained seven putative nuclear localization signals and several strong PEST motifs. Fusion of the N-terminal region of the protein containing six of the seven nuclear localization signals to the reporter gene beta-glucuronidase targeted the reporter gene to the nucleus, suggesting a nuclear role for PCBP.     

Isolation and characterization of angiogenin-1 and a novel protein designated lactogenin from bovine milk.

This paper reports the isolation and characterization from bovine milk of two proteins: angiogenin-1, a recently discovered angiogenin, and lactogenin, a novel protein. Both proteins were adsorbed on and eluted closely from CM-Sepharose and Mono S. Lactogenin possessed a molecular weight (17 kDa) slightly higher than that of angiogenin-1 (15 kDa). Lactogenin had a higher ribonucleolytic (RNase) activity than angiogenin-1 towards yeast transfer RNA (tRNA). The Km values estimated for the RNase activities of angiogenin-1 and lactogenin were 51 microM and 40 microM respectively. Both were specific for poly C. The optimal pH for the RNase activities of angiogenin-1 and lactogenin was 7.75 and 7.5 respectively. Comparison of the amino acid sequences of cyanogen bromide fragments and the pyroglutaminase-treated N-terminal fragment of lactogenin with the sequence of bovine liver RNase (RNase BL4) revealed identity in residues 3-22, 24, 26-27, 37, 41-44, 46-50, 54, 56, 63, 72-80, and 83. Considerable similarity to the N-terminal sequence of angiogenin-2 was also noted. Both lactogenin and angiogenin-1 inhibited cell-free translation in a rabbit reticulocyte lysate system with an IC(50) below 100 nM.     

Isolation and characterization of a novel peptide amide from porcine brain.

Peptide with C-terminal tyrosine amide was isolated from porcine brain by acid extraction and sequential steps of reverse phase HPLC. Microsequence, amino acid and mass spectral analyses revealed the structure: Ac-Ala-Ser-Glu-Lys-Arg-Pro-Ser-Glu-Arg-His-Gly-Ser-Lys- Tyr-amide. Since this peptide had the identical sequence to N-terminus of porcine myelin basic protein (pMBP) 1-14, we have designated porcine myelin peptide amide 14 (pMPA14). The final HPLC step yielded 20 micrograms of homogeneous peptide preparation from 20 kg brain tissue. Unlike other amidated peptides, pMPA14 may be produced by non enzymatic mechanism or unknown amidating enzyme. This unique amidation seems to occur exclusively to MBP in the brain.     

Isolation and characterization of a novel extracellular metalloprotease from Bacillus subtilis.

We have isolated and characterized two minor extracellular proteases from culture supernatants of a strain of Bacillus subtilis containing deletion mutations of the genes for the extracellular proteases subtilisin (apr) and neutral protease (npr) and a minor extracellular protease (epr) as well as intracellular serine protease-I (isp-1). Characterization studies have revealed that one of these enzymes is the previously described protease bacillopeptidase F. The second enzyme, the subject of this report, is a novel metalloprotease, which we designate Mpr. Mpr is a unique metalloprotease that has been purified to apparent homogeneity by using both conventional and high-performance liquid chromatography procedures. Mpr has a molecular mass of approximately 28 kilodaltons on sodium dodecyl sulfate-polyacrylamide gel electrophoresis and a basic isoelectric point of 8.7. The enzyme showed maximal activity against azocoll at pH 7.5 and 50 degrees C. Mpr was inhibited by dithiothreitol and a combination of beta-mercaptoethanol and EDTA. Activity was moderately inhibited by beta-mercaptoethanol and EDTA alone as well as by cysteine and citrate and only marginally by phosphoramidon 1,10-phenanthroline and N-[N-(L-3-trans-carboxyoxiran-2-carbonyl)-L-leucyl]-agmatine. Mpr was not inhibited by phenylmethylsulfonyl fluoride. In addition, Mpr showed esterolytic but not collagenolytic activities. Our studies suggest that Mpr is a secreted metalloprotease containing cysteine residues that are required for maximal activity.     

Isolation and mapping of resistance gene analogs from the Avena strigosa genome

Degenerate primers based on conserved regions of the nucleotide binding site (NBS) domain (encoded by the largest group of cloned plant disease resistance genes) were used to isolate a set of 15 resistance gene analogs (RGA) from the diploid species Avena strigosa Schreb. These were grouped into seven classes on the basis of 60% or greater nucleic acid sequence identity. Representative clones were used for genetic mapping in diploid and hexaploid oats. Two RGAs were mapped at two loci of the linkage group AswBF belonging to the A. strigosa × A. wiestii Steud map, and ten RGAs were mapped at 15 loci in eight linkage groups belonging to the A. byzantina C. Koch cv. Kanota × A. sativa L. cv. Ogle map. A similar approach was used for targeting genes encoding receptor-like kinases. Three different sequences were obtained and mapped to two linkage groups of the hexaploid oat map. Associations were explored between already known disease resistance loci mapped in different populations and the RGAs. Molecular markers previously linked to crown rust and barley yellow dwarf resistance genes or quantitative trait loci were found in the Kanota × Ogle map linked to RGAs at a distance ranging from 0 cM to 20 cM. Homoeologous RGAs were found to be linked to loci either conferring resistance to different isolates of the same pathogen or to different pathogens. This suggests that these RGAs identify genome regions containing resistance gene clusters.     

Isolation and characterization of novel tyrosinase from Laceyella sacchari

We here describe the isolation and characterization of a tyrosinase from a newly isolated soil bacterium. 16S rDNA sequence analysis revealed that the bacterium most probably belongs to the species Laceyella sacchari (Ls) ( > 99.9 % identity). The tyrosinase extracellular enzymatic activity was induced in the presence of L-methionine and CuSO4. The crude enzyme was first purified by centrifugation followed by ammonium sulphate precipitation and ultrafiltration. After removal of a brown pigment, probably melanin, a purified enzyme was obtained by further separation of the crude protein mixture using size exclusion chromatography. Some 10.5 mg of pure tyrosinase (LsTyr) was isolated with a molecular mass of 30 910 Da, based on MALDI mass spectrometry. Together with the observed enzymatic activity, N-terminal chemical sequence analysis confirmed that the isolated enzyme is homologous to other tyrosinases. The kinetic parameters for the diphenol substrates L-DOPA and dopamine and for the monophenol substrate L-tyrosine were determined to be KM = 4.5 mM , 1.5 mM and 0.055 mM, and kcat/KM = 261.5 mM-1 s -1 , 30.6 mM-1 s-1 and 56.3 mM-1 s-1, respectively. Maximal activities of the purified enzyme were found to occur at pH 6.8.     

Isolation and characterization of two alleles of the chicken cytochrome c gene.

Analysis of total chicken DNA by genomic blot hybridization indicates that only one cytochrome c gene exists in the chicken genome. The two alleles of this single cytochrome c gene have been isolated from a Charon 4A-chicken genomic library. This isolation made use of the yeast CYC1 cytochrome c gene as a specific hybridization probe. The 2 chicken alleles, CC9 and CC10, have been sequenced. The amino acid sequence predicted by these 2 alleles is identical, and agrees with the published chicken cytochrome c protein sequence. The flanking regions of these 2 alleles exhibit approximately 1% divergence, indicating a very limited polymorphism. Comparative sequence analysis with the flanking regions of previously isolated cytochrome c genes (yeast and rat) indicate no significant regions of homology. The presence of only one cytochrome c-like sequence in the chicken genome is in striking contrast with mammalian genomes, which contain as many as 20-30 cytochrome c-like sequences.     

Isolation and biochemical characterization of a novel lantibiotic mutacin from Streptococcus mutans.

Certain members of the indigenous biota of humans produce antimicrobial substances called bacteriocins, which inhibit other bacteria, including members of their own species. One of these substances, mutacin, is made by Streptococcus mutans, a member of the oral biota. Mutacin inhibits other mutans streptococci as well as many gram-positive exogenous pathogens. Here, we report for the first time the purification and partial biochemical characterization of a lanthionine-containing mutacin peptide from S. mutants T8. The biologically active peptide was isolated from the broth cultures by ultrafiltration and differential precipitation. The final mutacin preparation was homogeneous as shown by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and N-terminal amino acid sequencing. A molecular mass of the peptide was estimated by electrospray ionization mass spectroscopy to be 3,244.64 +/- 1.15 Da. Its amino acid composition indicates the presence of lanthionine and likely beta-methyllanthionine in a total of about 25 amino acids. Because alpha,beta-unsaturated amino acids, the precursors of lanthionine residues, are often found in lantibiotics, we carried out the addition reaction of the mutacin with N-(methyl)mercaptoacetamide. The subsequent electrospray ionization mass spectroscopy analysis indicated the presence of two reaction products with M(r)s of 3,350.45 and 3,456.0. These are interpreted as the mutacin molecule with the addition of one and two molecules of reagent to the unsaturated amino acids, respectively. Sequencing of the peptide revealed an N-terminal amino acid sequence of Asn-Arg-Trp-Trp-Gln-Gly-Val-Val.     

Isolation and characterization of novel lipase gene LipHim1 from the DNA isolated from soil samples

Metagenomics is a magnificent tool to isolate genes from unknown/uncharacterized species and also from organisms that cannot be cultured. In this study, we constructed a metagenomic library from isolated DNA of soil samples collected from Palamuru University campus premises, in Mahabubnagar district of Andhra Pradesh, India. We isolated a novel lipase gene LipHim1, which has an open reading frame of 591 base pairs and encodes ～23 kDa protein consisting of 196 amino acids. The Lipase LipHim1 showed maximum 32% homology at the protein level with the extracellular Aeromonas hydrophila lipase (Class II, GDSL family) and was significantly different from all other known lipases. The isolated lipase catalyzed the hydrolysis of fatty acid esters of polyoxyethylene sorbitan such as Tween 60. Our results indicate that the isolated lipase gene is novel.     

Isolation and characterization of a novel gamma-hexachlorocyclohexane-degrading bacterium.

The natural biotic capacity of soils to degrade gamma-hexachlorocyclohexane (gamma-HCH, lindane) was estimated using an enrichment technique based on the ability of soil bacteria to develop on synthetic media and degrade the xenobiotic compound, used as the sole source of carbon and energy. Bacterial inocula from relatively highly contaminated soils (from wood treatment factories) were found to promote efficiently the degradation of gamma-HCH, which subsequently permitted isolation of a competent gamma-HCH-degrading microorganism. The decrease of gamma-HCH concurrently with the release of chloride ions and the production of CO2 demonstrated the complete mineralization of gamma-HCH mediated by the isolate. This was confirmed by gas chromatography-mass spectrometry analyses showing that degradation subproducts of gamma-HCH included an unidentified tetrachlorinated compound and subsequently 1,2,4-trichlorobenzene and 2,5-dichlorophenol. The two linA- and linB-like genes coding, respectively, for a gamma-HCH dehydrochlorinase and a dehalogenase were characterized by using a PCR strategy based on sequence homologies with previously published sequences from Sphingomonas paucimobilis UT26. Nucleotide sequence analysis of the linA-like region revealed the presence of a 472-bp open reading frame exhibiting high homology with the linA gene from S. paucimobilis, while a preliminary study also indicated strong homology among the two linB genes. All enzymes involved in the gamma-HCH degradative pathway appear to be extracellular and encoded by genes located on the chromosome, although numerous cryptic plasmids have been detected.     

Isolation and characterization of a novel methylhopanoid from a facultative methylotrophicCorynebacterium sp.

Several compounds such as a methylhopanoid and carotenoids have been isolated and characterized from a facultative methylotrophicCorynebacterium sp., a vitamin B¹² producer. A novel pentacyclic triterpene, 2-methyl-22-hydroxyhopane has been identified by IR,₁H-and¹³C-NMK and mass spectrometry. During the purification procedure a red pigment has been characterized as a mixture of several carotenoids by TLC and UV-VIS spectroscopy.     

Isolation and characterization of novel α-amylase from marine Streptomyces sp. D1

In this study, we have reported novel α-amylase enzyme from less extensively studied marine Streptomyces sp. D1. Enzyme production was determined by using media containing 2% sucrose, 0.35% peptone and 0.15% of malt extract. Optimum temperature for enzyme production and activity was found to be 45 °C and enzyme retained almost 50% of its activity at 85 °C. Enzyme activity was also retained in presence of commercially available detergent and oxidizing agents. The partially purified enzyme from strain D1 exhibited specific activity of 113.64 U/mg protein that corresponds to 2.8-fold purification. SDS-PAGE and zymogram activity staining showed a single band equal to molecular mass of 66 kDa. The reported enzyme may have wide spread application for detergent and pharmaceutical industry.     

Isolation and characterization of alpha-1-antitrypsin from rhesus-monkey serum.

A simple, relatively gentle, procedure for isolation of rhesus-monkey alpha-1-antitrypsis from serum is described. The method consists of chromatographic separation of the fraction precipitated by 50-75%-satd. (NH4)2SO4 from pooled monkey serum on DEAE-cellulose followed by affinity chromatography on Sepharose-bound concanavalin A. Approx. 30% of the trypsin-inhibitory activity present in the original serum was recovered when alpha-1-antitrypsin was reconstituted with physiological saline (0.85% NaCl). Pure alpha-1-antitrypsin exhibitied a single band on sodium docecyl sulphate/polyacrylamide-gel electrophoresis, with an estimated mol.wt. of 60000 and four bands in acid/starch-gel electrophoresis. The acid/starch-gel-electrophoretic pattern and mobility of isolated material were identical with those of the alpha-1-antitrypsin bands in the original serum sample. The most rapdily migrating bands resembled the pattern and mobility for the normal human phenotype PiM in 28 monkeys. A starch strip from the acid/starch-gel-electrophoresis as the origin for antigen-antibody electrophoresis was used to examine alpha-1-antitrypsin for microheterogeneity; no evidence for microheterogeneity was observed in samples from 18 monkeys. In addition, isolated alpha-1-antitrypsin exhibited a single arc when subjected to immunoelectrophoresis. Amino acid and carbohydrate compositions of isolated monkey alpha-1-antitrypsin were similar to those of human alpha-1-antitrypsin.     

Isolation and characterization of a novel vitamin-K from Eubacterium lentum

A novel fat-soluble vitamin K like molecule was isolated from the prokaryote, Eubacterium lentum, and its structure investigated by mass spectrometry and proton nuclear magnetic resonance spectrometry. On the basis of these studies the novel quinone is shown to be 2,5 and 6- or 2,7 and 8-trimethyl-3-farnesylfarnesyl-1,4-naphthoquinone.     

Isolation and characterization of novel 1,3-propanediol-producing Lactobacillus panis PM1 from bioethanol thin stillage

Conversion of glycerol to 1,3-propanediol (1,3-PDO) is an attractive option to increase the economic efficiency of the biofuel industry. A bacterial strain that produced 1,3-PDO in the presence of glycerol was isolated from thin stillage, the fermentation residue of bioethanol production. This 1,3-PDO-producing organism was identified as Lactobacillus panis through biochemical characteristics and by 16S rRNA sequencing. Characterization of the L. panis strain hereafter designated as PM1 revealed it was an aerotolerant acidophilic anaerobe able to grow over a wide range of temperatures; tolerant to high concentrations of sodium chloride, ethanol, acetic acid, and lactic acid; and resistant to many common antibiotics. L. panis PM1 could utilize glucose, lactose, galactose, maltose, xylose, and arabinose, but could not grow on sucrose or fructose. Production of 1,3-PDO by L. panis PM1 occurred only when glucose was available as the carbon source in the absence of oxygen. These metabolic characteristics strongly suggested NADH recycling for glucose metabolism is achieved through 1,3-PDO production by this strain. These characteristics classified L. panis PM1 within the group III heterofermentative lactic acid bacteria, which includes the well-characterized 1,3-PDO-producing strain, Lactobacillus reuteri. Metabolite production profiles showed that L. panis PM1 produced considerable amounts of succinic acid (~11–12 mM) from normal MRS medium, which distinguishes this strain from L. reuteri strains.