RESUMEN

Although the G+C content of Thermus aquaticus YT-1 chromosomal DNA is 67.4%, regions with lower G+C content have also been observed. AT-rich DNA-binding proteins may contribute to the thermostability and biological functions of these DNA regions at Thermus growth temperatures. Using double-stranded DNA (dsDNA)-cellulose chromatography, a T.aquaticus YT-1 protein, designated as p25, was identified to bind preferentially to AT-rich DNA. The gene encoding p25 was cloned and sequenced after immunoscreening T.aquaticus YT-1 expression libraries. The deduced primary structure of p25 is 211 amino acids in length with a molecular weight of 23 225 Da. Native p25 was purified and characterized as a homodimer with modification possibly at lysine and arginine residues. Its preferential and temperature-dependent binding to AT-rich DNA was confirmed with mobility-shift DNA-binding assays. The protein was demonstrated to bind preferentially to dsDNA instead of single-stranded DNA. The binding of p25 to dsDNA also improved the thermotolerence of this protein. Overexpression study of fusion p25 suggested that the N-terminus of the protein might form the DNA-binding domain or be closely involved in DNA-binding activity.

Asunto(s)

RESUMEN

An amino acid residue functioning as a general base has been proposed to assist in the hydrolysis of beta-lactam antibiotics by the zinc-containing Bacillus cereus beta-lactamase II [Bicknell & Waley (1985) Biochemistry 24, 6876-6887]. Oligonucleotide-directed mutagenesis of cloned Bacillus cereus 5/B/6 beta-lactamase II was used in an 'in vivo' study to investigate the role of carboxy-group-containing amino acids near the active site of the enzyme. Substitution of asparagine for the wild-type aspartic acid residue at position 81 resulted in fully functional enzyme. An aspartic acid residue at position 90 is essential for beta-lactamase II to confer any detectable ampicillin and cephalosporin C resistance to Escherichia coli. Conversion of Asp90 into Asn90 or Glu90 lead to the synthesis of inactive enzyme, suggesting that the spatial position of the beta-carboxy group of Asp90 is critical for enzyme function.

Asunto(s)

RESUMEN

Plasmid pUC18rspL is a 3.788-kilobase pair vector, derived from pUC18, pKK232-8 and pHSG664, which identifies promoter-bearing DNA fragments functional in StrA E. coli by activation of a promoterless streptomycin-sensitive gene cartridge (rspL). Expression of the plasmid-borne rspL gene leads to sensitivity dominance and death of the cell. Promoter-bearing DNA fragments can be cloned within a synthetic polylinker containing 12 unique restriction nuclease target sequences. After transformation of StrA E. coli TB1, ampicillin-resistant transformants are replica plated on medium containing ampicillin and streptomycin to identify promoters cloned in their functional orientation. These elements can be sequenced without additional subcloning steps from the M13 universal forward primer hybridization site located 5' of the polylinker in the pUC18 contribution. Transcriptional terminators are cloned 3' of the rspL gene to maintain a balance between transcription and replication when high signal strength promoters such as the E. coli Tac promoter are analyzed. pUC18rspL is used to clone transcriptional promoters from the extreme thermophile T. aquaticus. Promoter signal strength can be estimated by determining the extent of sensitivity dominance conferred to the host.

Asunto(s)

RESUMEN

Random in vitro mutagenesis of a cloned Bacillus cereus 5/B/6 beta-lactamase II gene was used to select defective genes unable to confer ampicillin or cephalosporin C resistance to Escherichia coli. DNA sequencing of mutant genes identified histidine at position 28 as important to beta-lactamase II function. In addition, the isolation of six identical frameshift mutants established that the carboxyl-terminal end of beta-lactamase II is critical for enzyme function. Random mutagenesis also revealed that His88 (implicated previously as one of 4 residues acting as a zinc ligand) is crucial to enzymatic activity and that a glycine to glutamic acid substitution at position 148 produced a defective beta-lactamase. Oligonucleotide mutagenesis directed at Glu37 and Glu212 suggests that these residues are inconsequential to enzyme function but that histidine at position 28 may be involved in substrate binding or recognition.

Asunto(s)

RESUMEN

The Rd gene is expressed in the livers and oviducts of laying hens and codes for the riboflavin-binding protein (RfBP) of egg yolk and egg white. A lambda gt11 cDNA library derived from chicken oviduct poly(A)+ RNA was screened with polyclonal rabbit antiserum to chicken RfBP. Positive clones were isolated and rescreened with a mixed oligonucleotide probe corresponding to residues 20-25 of the mature protein. The largest cDNA clone (969 base pairs) was subcloned into plasmid pIBI21, and the nucleotide sequence was determined by the dideoxynucleotide method. This clone contained the entire coding region for RfBP. The published amino acid sequence of the mature protein was confirmed. In addition, the following 17-residue signal peptide was deduced: Met-Leu-Arg-Phe-Ala-Ile-Thr-Leu-Phe-Ala-Val-Ile-Thr-Ser-Ser-Thr-Cys. Unexpectedly, the nucleotide sequence codes for 2 adjacent arginine residues at the carboxyl terminus that are not observed in the mature protein. The amino acid sequence of RfBP is homologous with bovine milk folate-binding protein. Eight of the nine pairs of cysteines involved in disulfide bonds in RfBP are conserved in folate-binding protein, as are all of the tryptophan residues. Sequence identity between homologous regions of these two vitamin-binding proteins is more than 30%.

Asunto(s)

RESUMEN

Two forms of heat-stable, zinc-containing beta-lactamase II have been described for strains of Bacillus cereus and have been shown to differ in substrate specificity (R. B. Davies, E. P. Abraham, J. Fleming, and M. R. Pollock, Biochem. J. 145: 409-411, 1975). We report here the nucleotide sequence, inferred amino acid sequence, and expression of beta-lactamase II from B. cereus 5/B/6 and compare our results with those for its homolog characterized in B. cereus 569/H (M. Hussain, C. Anthony, M. J. Madonna, and J. O. Lampen, J. Bacteriol. 164: 223-229, 1985) to document amino acid differences contributing to the specific properties of these enzymes.

Asunto(s)

RESUMEN

Sequencing ladders produced from supercoiled DNA templates with the Escherichia coli DNA polymerase Klenow fragment are often unreadable because of a high background and misincorporated nucleotides. This study showed that contaminating RNA molecules can interfere with template:primer hybridization. Procedures are provided for the purification of template DNA and stringent conditions for primer-template hybridization that overcome these problems.

Asunto(s)

RESUMEN

Recombinant plasmid DNA cloned in E. coli via the bifunctional vector pDH5060 suffered deletions when returned to B. subtilis. However, DNA preparations of identical chimeras containing homologous or heterologous sequences stably transformed B. subtilis at high efficiency when isolated from B. subtilis. The vector pDH5060, however, was not affected and could be stably shuttled between E. coli and B. subtilis at high frequency. These problems affected the transfer of clone pools and individual chimeras, irrespective of the restriction or recombination phenotype of B. subtilis recipients. Deleted chimeras lost at least one end of cloned inserts, and in most cases, flanking plasmid sequences. Single plasmid forms (intact or deleted) were isolated from several hundred individual Cmr-transformants this suggests that events leading to deletion of chimeric plasmid DNA occur during transformation by restriction of unmodified insert sequences propagated in the intermediate host, E. coli. This conclusion is discussed with regard to the mechanism of plasmid transformation in B. subtilis.

Asunto(s)

RESUMEN

Cloning in Escherichia coli and Bacillus subtilis was carried out using the bifunctional plasmid pDH5060. B. subtilis chromosomal DNA and pDH5060 DNA were digested with either BamHI or SalI, then annealed, ligated, and transformed into E. coli SK2267. Transformants containing sequences ligated into the BamHI or SalI sites in the Tcr gene of pDH5060 were selected directly using a modification of the fusaric acid technique. The BamHI and SalI clone banks contain about 250 and 140 B. subtilis fragments, respectively, with an average insert size of 8-9 Kbp in the BamHI and 4-5 Kbp in the SalI bank. The inserts ranged in size from 0.3 Kbp to greater than 20 Kbp. The vector used here therefore accepts inserts which are significantly larger than previously reported for other B. subtilis cloning systems. All individual cloned B. subtilis sequences examined were stably propagated in E. coli SK2267. Eight of eighteen B. subtilis auxotrophic markers tested (aroG, gltA, glyB, ilvA, metC, purA, pyrD, and thrA) were transformed to prototrophy with BamHI or SalI clone bank DNA. All or part of the hybrid plasmid DNA recombined at the sites of homology in the chromosome of these Rec+ recipients. Loss of sequences from hybrid plasmids was not prevented in a r- m- recE4 recipient strain of B. subtilis. Although the recE4 background prevented recombination between homologous chromosomal DNA, a variety of cloned fragments were shown to be unstable and undergo deletions of both insert and plasmid sequences. In addition, B. subtilis sequences propagated in E. coli transformed B. subtilis recE4 recipients with a 500-1,000-fold reduced efficiency.

Asunto(s)

RESUMEN

Hybrid plasmid DNA cloned in Escherichia coli undergoes deletions when returned to competent Bacillus subtilis, even in defined restriction and modification mutants of strain 168. We have isolated a mutant of B. subtilis MI112 which is stably transformed at high frequency by chimeric plasmid DNA propagated in E. coli.

Asunto(s)

RESUMEN

The kinetics of DNA arrest and the maintenance of the association of viral chromosomes with the cell membrane were examined by temperature-shift experiments using temperature-sensitive mutants in two early bacteriophage phi29 genes required for phage DNA replication. phi29 ts2(35), a mutant in cistron 2 whose product (protein P2) is continuously required for associating phage DNA with the Bacillus subtilis membrane, does not stop phage DNA synthesis immediately after a shift to the nonpermissive temperature. In contrast, bacteria infected with phi29 ts3(28), a mutant in cistron 3 (which codes for protein P3), stop synthesizing phage DNA immediately after transfer to the nonpermissive temperature. Parental phage DNA in phi29 ts2(35) infections rapidly dissociates from the cell membrane after a shift to 45 degrees, whereas phi29 ts3(28) DNA remains associated with the membrane after the shift to the nonpermissive temperature and then slowly dissociates. Thus the rapid dissociation of parental phage phi29 chromosomes from the membrane is dependent on a functional protein P3. These findings are discussed in terms of possible modes of action of these two proteins and suggest that protein P2 operates as a linker of phage chromosomes to the membrane, whereas protein P3 participates directly in the initiation or in the polymerization of viral DNA molecules.

Asunto(s)

RESUMEN

Fifty-four suppressible mutants of bacteriophage phi29 have been isolated with a variety of mutagens and assigned to eight complementation groups. Viral-specific protein synthesis in UV light-irradiated, nonsuppressing Bacillus subtilis 60084 was analyzed with exponential acrylamide gels. Four additional phi29 proteins which were undetected on ordinary acrylamide gels are reported in this paper. Five phage phi29 proteins have been unambiguously assigned to specific cistrons. Two cistrons had pleiotropic effects on viral protein synthesis. Mutants in cistrons I or II were unable to synthesize DNA in nonsuppressing bacteria. Mutants in cistron I were unable to attach viral chromosomes to the host cell membrane, and the protein responsible for this function has been identified. The other viral protein playing a role in phage phi29 DNA synthesis is also identified and assigned to cistron II. Mutants in cistron II can attach viral chromosomes to membrane, but cannot synthesize DNA in nonsuppressing bacteria.

Asunto(s)

RESUMEN

Seventeen bacteriophage phi29 proteins were detected in ultraviolet light-irradiated Bacillus subtilis by autoradiography of polyacrylamide slab gels. The appearance of phi29 proteins occurred either before or concomitantly with viral DNA replication. Viral proteins detected early in the infectious cycle consisted of nine polypeptides ranging from 5,200 daltons to 54,000 daltons. Two of the early proteins were identified as, respectively, the major capsid protein and the protein comprising the filaments which extend from the head of the virus. Late phi29 proteins were composed of eight polypeptides ranging from 14,000 daltons to 95,000 daltons. Only three late proteins were noncapsid proteins. Among the early proteins, six were synthesized at diminishing rates late in the infectious cycle. One of the early proteins (protein 12) lacked histidine, whereas two (proteins 10 and 15) lacked tryptophan. Among the 17 proteins detected, 10 were viral noncapsid proteins. The amount of viral genetic information required to code for the 17 proteins detected in these experiments (81% of the potential genetic information of phi29 DNA) compares favorably with the genetic information detected as mRNA in a previous report, 85% of the potential information on the phi29 chromosome.

Asunto(s)

RESUMEN

Unsheared lysates of Bacillus subtilis 168T(-) containing uniformly labeled deoxyribonucleic acid (DNA) were exposed to varying doses of gamma rays to introduce double-strand scissions in the chromosome. From an estimate of the number-average molecular weight and the amount of DNA bound to membrane after irradiation, about 70 to 90 regions of the bacterial chromosome were detected in membrane fractions. Since this number was independent of the molecular weight of the DNA (i.e., the extent of fragmentation of the chromosome), it is thought to represent an upper limit in the number of membrane-binding sites per chromosome.

Asunto(s)

Asunto(s)

RESUMEN

The ribonucleic acid (RNA) specified by bacteriophage phi29 was analyzed to determine its composition at various times in the viral lytic cycle. Although viral-specific RNA was detected immediately after infection, a large increase in the rate was observed at 10 min when DNA synthesis began. phi29 was found to resemble other viruses in that gene expression occurred in two stages which could be defined temporally as "early" and "late." Early RNA appeared before the onset of viral deoxyribonucleic acid (DNA) replication and accounted for approximately 40% of the viral genetic potential. This RNA was also present late in the infectious cycle because of the slow turnover rate of phi29-specific RNA (approximately 10 min half-life) and the continued synthesis of much early viral RNA throughout infection. Late RNA was first detected at approximately the same time as viral DNA replication, although late transcription was not dependent upon DNA synthesis. This RNA was only partially displaced by early RNA in the appropriate competition experiments, suggesting that it contained sequences not present in the early class. Expression of viral genes was sensitive to rifamycin throughout the lytic cycle, the sensitivity resulting from a dependence upon the rifamycin phenotype of the host RNA polymerase.

Asunto(s)

RESUMEN

The ribonucleic acid (RNA) specified by bacteriophage phi29 was isolated under conditions which minimized physical and enzymatic degradation, reduced aggregation, and enriched for completed molecules. This RNA was fractionated both by sedimentation through sucrose density gradients and electrophoresis through polyacrylamide gels to measure the size and relative amount of each component. Early RNA consisted of six components of molecular weight 0.75 x 10(6), 0.44 x 10(6), 0.37 x 10(6), 0.25 x 10(6), 0.09 x 10(6), and 0.04 x 10(6), accounting for 35% of the coding capacity of phi29 deoxyribonucleic acid (DNA). All of these components except the one at 0.44 x 10(6) were detected when infection occurred in the presence of chloramphenicol. Synthesis of the major early component (0.75 x 10(6)) ceased shortly after the onset of viral DNA synthesis. The other species of early RNA were synthesized throughout the latent period. Three additional components, 1.75 x 10(6), 0.93 x 10(6), and 0.07 x 10(6), appear at late times. The two large RNAs may be polycistronic messenger RNAs corresponding to the seven viral capsid proteins.

Asunto(s)

RESUMEN

Ribonucleic acid (RNA) synthesis primed by bacteriophage T4 or lambda deoxyribonucleic acid (DNA) with Bacillus subtilis RNA polymerase is severely inhibited by high ionic strength. In contrast, RNA synthesis on B. subtilis bacteriophage 2C, SPO1, or phi29 DNA is only moderately affected under similar conditions. The basis of this inhibition lies in the inability of the enzyme to initiate RNA chains with adenosine triphosphate or guanosine triphosphate (ATP, GTP). Binding to templates and the rate of catalysis in high salt after initiation do not seem to be affected. Incorporation of gamma-(32)P-ATP and GTP under a variety of conditions suggests that the specificity of B. subtilis RNA polymerase is different from that of the Escherichia coli enzyme and that it recognizes few promoters on T4 and lambda DNA. Although B. subtilis RNA polymerase initiates RNA chains primarily with ATP or GTP, initiations with pyrimidines can occur on DNA molecules in which hydroxymethyluracil replaces thymine. RNA synthesis on denatured DNA does not seem to be inhibited by high ionic strength, and on native T4 or lambda DNA the inhibition of initiation at constant ionic strength is inversely but not linearly proportional to the ionic radii of cations used to stabilize bihelical DNA to denaturation.

Asunto(s)

Asunto(s)

RESUMEN

Linear density gradients of Renografin have resolved two components of bacterial deoxyribonucleic acid (DNA) in sheared lysates. Component 1, at equilibrium density after 5 hr of centrifugation, is enriched for newly synthesized DNA and markers near the origin and terminus of replication. It contains 5% of total cellular protein, 25% of the phospholipids, 30 to 50% of the DNA, 4 to 11% of unstable ribonucleic acid (RNA), RNA polymerase, and low amounts of DNA polymerase. The material is sensitive to Pronase and Sarkosyl. In unsheared lysates, all of the DNA forms a band at this position. Shearing the lysate generates a slow-sedimenting fraction of DNA (component 2) which contains more uniformly labeled than newly synthesized DNA. These observations suggest that replicating DNA and DNA at the origin and possibly the terminus of replication are associated with membrane. The amount of uniformly labeled DNA in component 1 and an estimate of the number of chromosomal fragments suggest that other parts of the chromosome are possibly associated with the membrane.

Asunto(s)