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1.
RNase P is an essential enzyme that processes 5'' end leader sequence of pre-tRNA to generate mature tRNA. The bacterial RNase Ps contain a RNA subunit and one protein subunit, where the RNA subunit contains the catalytic activity. The protein subunit which lacks any catalytic activity, relaxes the ionic requirements for holoenzyme reaction and is indispensable for pre-tRNA cleavage in vivo. In the current study, we reconstituted the M. tuberculosis RNase P holoenzyme in vitro. We prepared the RNase P protein through two different strategies that differ in the conditions under which the recombinant M. tuberculosis protein, expressed in E. coli was purified. The mycobacterial RNase P protein which was purified under native conditions subsequent to isolation from inclusion bodies and in vitro renaturation, was capable of cleaving pre-tRNA specifically without the requirement of RNase P RNA. However, the preparation that was purified under denaturing conditions and refolded subsequently lacked any inherent pre-tRNA processing activity and cleaved the substrate only as a component of the holoenzyme with the RNA subunit. We found that the two RNase P protein preparations attained alternative conformations and differed with respect to their stability as well.  相似文献   

2.
The UL15 gene of herpes simplex virus (HSV) is one of several genes required for the packaging of viral DNA into intranuclear B capsids to produce C capsids that become enveloped at the inner nuclear membrane. A rabbit antiserum directed against UL15-encoded protein recognized three proteins with apparent Mrs of 79,000, 80,000, and 83,000 in highly purified B capsids. The 83,000-Mr protein was detected in type C capsids and comigrated with the product of a UL15 cDNA transcribed and translated in vitro. The 83,000- and 80,000-Mr proteins were readily detected in purified virions. Inasmuch as (i) none of these proteins were detectable in capsids purified from cells infected with HSV-1(ΔUL15), a virus lacking an intact UL15 gene, and (ii) corresponding proteins in capsids purified from cells infected with a recombinant virus [HSV-1(R7244), containing a 20-codon tag at the 3′ end of UL15] were decreased in electrophoretic mobility relative to the wild-type proteins, we conclude that the proteins with apparent Mrs of 83,000, 80,000, and 79,000 are products of UL15 with identical C termini. The 79,000-, 80,000-, and 83,000-Mr proteins remained associated with B capsids in the presence of 0.5 M guanidine HCl and remained detectable in capsids treated with 2.0 M guanidine HCl and lacking proteins associated with the capsid core. These data, therefore, indicate that UL15-encoded proteins are integral components of B capsids. Only the 83,000-Mr protein was detected in B capsids purified from cells infected with viruses lacking the UL6, UL17, or UL28 genes, which are required for DNA cleavage and packaging, suggesting that capsid association of the 80,000- and 79,000-Mr proteins requires intact cleavage and packaging machinery. These data, therefore, indicate that capsid association of the 80,000- and 79,000-Mr UL15-encoded proteins reflects a previously unrecognized step in the DNA cleavage and packaging reaction.  相似文献   

3.
The restriction endonuclease Type II R.NmeDI from Neisseria meningitidis 2120 (serogroup C, ST-11 complex) was characterized. The cloned nmeDIR gene was expressed in Escherichia coli cells, and the endonucleolytic and restriction activities of R.NmeDI were then observed in vitro and in vivo. The nmeDIR gene consists of 1056 bp coding 351 aa protein with a calculated molecular weight of M(r) = 39 000 ± 1000 Da. The R.NmeDI enzyme was purified to apparent homogeneity following overexpression, using metal affinity chromatography. This enzyme recognizes a palindrome sequence and cleaves double-stranded DNA upstream and downstream of its recognition sequence (12/7) RCCGGY (7/12) (R = A/G, Y = C/T) cutting out a 25-bp fragment. R.NmeDI cleaves in two steps. The enzyme cleaves the first strand randomly on either side of the recognition sequence generating an intermediate, and the second cleavage occurs more slowly and results in the production of a final reaction product. The R.NmeDI endonuclease requires two recognition sequences for effective cleavage. The tetramer is an active form of the R.NmeDI enzyme.  相似文献   

4.
A bacteriophage P1-specific DNA binding protein has been partially purified from P1-infected Escherichia coli and identified as the P1c1 repressor. This protein is absent from non-suppressing cells infected with a P1c1 amber mutant. The binding activity of the protein isolated from cells infected with a c1ts mutant is thermolabile in vitro, so the repressor protein is the product of the c1 gene. Studies on P1 DNA fragments generated by restriction endonuclease digestion indicate that the c1 repressor binds preferentially in vitro at a site or sites located close to the c1 gene itself.  相似文献   

5.
Sixteen site-specific endonucleases were used to characterize the mitochondrial (mt)-DNA of Chlamydomonas reinhardtii. Recognition sites for SmaI, XhoI, and BglII were absent in the mtDNA. mtDNA fragments appeared in stoichiometric proportions in every nuclease digest indicating that C. reinhardtii mtDNA consists of a homogenous population of molecules devoid of either inter- or intramolecular heterogeneity. Six DNA fragment maps were derived for those endonucleases that produced discrete and readily measurable DNA fragments. These maps, which exhibited marked internal consistency, also suggested that the linear mtDNA molecules possessed unique ends. This was subsequently confirmed by in vitro 5′-end labeling of mtDNA molecules prior to endonuclease digestion. These results indicate that (1) the linear mtDNA isolated under our experimental conditions possessed not only unique ends but also a nonpermuted gene sequence and (2) such mtDNA molecules were generated by a site-specific cleavage of the closed circular mtDNA molecules shown to exist in vivo. mtDNA sequence conservation in Chlamydomonas is quite striking. No difference in endonuclease cleavage pattern has yet been detected among a number of C. reinhardtii strains or between mating types.  相似文献   

6.
We have developed an osmotic shock procedure which disconnects the tail from the head of intact bacteriophage T4, leaving the neck region attached to the tail. Purification of these necked tails permitted detailed structural observations of the neck and the collar/whisker complex attached to it, as well as comparison by gel electrophoresis with tails lacking the neck. Five or six neck proteins were found: N1 (Mr = 52,000; 39 copies/phage) is the product of the wac3 gene (Pwac), forms both the collar and six whiskers as a multimeric fibrous protein, and probably assembles onto phage after head to tail joining; N2 (Mr= 35,000; 5 to 6 copies/phage), N3 (Mr= 33,000; 17 copies/phage) identified here as P13, and N6 (Mr= 28,000; 10 to 11 copies/phage) are all assembled in heads prior to tail joining; N4 (Mr= 32,000; 6 to 9 copies/phage) is unusual in that it is present in wac or wac+ phage and necked tails but is absent from purified heads; N5 (Mr =29,000) is probably P14 and like N4 is not found in heads. However, while we find one to two copies of N5 per necked tail, we have not observed it in phage.An aberrant neck structure called the extension assembles on the distal end of the tail connector late (after 33 min, 30 °C) in head-defective, mutant-infected cells. The extension contains five of the six neck proteins (N2 is absent), and blocks head to tail joining in vitro. Mutations in genes 13 and 14, and the double mutant 49:Wac block extension assembly.Other results show that the wac mutant E727J is an amber lesion, and that Pwac can assemble on collarless, wac phage in vitro.  相似文献   

7.
Inversion of the G segment in bacteriophage Mu DNA occurs by a site-specific recombination event and determines the host specificity of Mu phage particles produced. Inversion is mediated by a Mu function (Gin). The gin gene has been placed under control of the inducible λ pL promoter and a synthetic Shine-Dalgarno linker upstream of the initiation codon. The Gin protein content in induced cells is boosted to ˜10% of total protein. Partially purified extracts from overproducing strains promote efficient inversion of the G DNA segment in vitro which is visualized by agarose gel electrophoresis of the substrate DNA after cutting with appropriate restriction endonucleases. The in vitro reaction requires Mg2+, a super-coiled DNA substrate and occurs in the absence of exogenous ATP. Inversion from the G(+) to the G(−) orientation is as efficient as the switch from G(−) to G(+).  相似文献   

8.
9.
《Phytochemistry》1987,26(3):627-631
The highly specific proteolytic breakdown observed upon prolonged treatment of pea legumin and pea and jack bean vicilin with a thiol endopeptidase purified from mature lupin seeds has been studied in detail. Proteolytic cleavage occurred in the acidic subunits of pea legumin, whereas the basic subunits were unaffected. Jack bean vicilin (M, 47 K) was cleaved near the middle of the polypeptide chain, whereas pea vicilin (M, 50 K) was cleaved into two fragments of M, 30 K and 20 K, respectively. The 30 K M, polypeptide chain contained covalently linked carbohydrate and had an N-terminal sequence suggesting that cleavage had taken place between the α and β region of the vicilin 50 K M, polypeptide as previously described in vivo. These results suggested that the cleavage specificity of lupin endopeptidase was in the proximity of paired arginine amino acid residues.The changes in the vicilin polypeptides due to proteolytic cleavage by lupin enzyme and those occurring during germination of pea seeds are also reported and discussed.  相似文献   

10.
Deoxyinosine (dI) in DNA can arise from hydrolytic or nitrosative deamination of deoxyadenosine. It is excised in a repair pathway that is initiated by endonuclease V, the nfi gene product, in Escherichia coli. Repair was studied in vitro using M13mp18 derived heteroduplexes containing a site-specific deoxyinosine. Unpaired dI/G mismatch resides within the recognition site for XhoI restriction endonucleases, permitting evaluation of repair occurring on deoxyinosine-containing DNA strand. Our results show that dI lesions were efficiently repaired in nfi+ E. coli extracts but the repair level was much reduced in nfi mutant extracts. We subjected the deoxyinosine-containing heteroduplex to a purified system consisting of soluble endonuclease V fusion protein, DNA polymerase I, and DNA ligase, along with the four deoxynucleoside triphosphates. Interestingly we found these three proteins alone are sufficient to process the dI lesion efficiently. We also found that the 3′-exonuclease activity of DNA polymerase I is sufficient to remove the dI lesion in this minimum reconstituted assay.  相似文献   

11.
The functions of ten known late genes are required for the intracellular assembly of infectious particles of the temperate Salmonella phage P22. The defective phenotypes of mutants in these genes have been characterized with respect to DNA metabolism and the appearance of phage-related structures in lysates of infected cells. In addition, proteins specified by eight of the ten late genes were identified by sodium dodecyl sulfate/polyacrylamide gel electrophoresis; all but two are found in the mature phage particle. We do not find cleavage of these proteins during morphogenesis.The mutants fall into two classes with respect to DNA maturation; cells infected with mutants of genes 5, 8, 1, 2 and 3 accumulate DNA as a rapidly sedimenting complex containing strands longer than mature phage length. 5? and 8? lysates contain few phage-related structures. Gene 5 specifies the major head structural protein; gene 8 specifies the major protein found in infected lysates but not in mature particles. 1?, 2? and 3? lysates accumulate a single distinctive class of particle (“proheads”), which are spherical and not full of DNA, but which contain some internal material. Gene 1 protein is in the mature particle, gene 2 protein is not.Cells infected with mutants of the remaining five genes (10, 26, 16, 20 and 9) accumulate mature length DNA. 10? and 26? lysates accumulate empty phage heads, but examination of freshly lysed cells shows that many were initially full heads. These heads can be converted to viable phage by in vitro complementation in concentrated extracts. 16? and 20? lysates accumulate phage particles that appear normal but are non-infectious, and which cannot be rescued in vitro.From the mutant phenotypes we conclude that an intact prohead structure is required to mature the virus DNA (i.e. to cut the overlength DNA concatemer to the mature length). Apparently this cutting occurs as part of the encapsulation event.  相似文献   

12.
13.
In vitro synthesis and processing of tomato fruit polygalacturonase   总被引:10,自引:5,他引:5       下载免费PDF全文
The in vitro processing of tomato fruit polygalacturonase (PG) (poly[1,4-α-d-galacturonide]glucanohydrolase, EC 3.2.1.15) was studied. Complete chemical deglycosylation of a mixture of mature, purified PG 2A and PG 2B isozymes (45 and 46 kilodaltons; respectively) with trifluoromethane sulfonic acid yielded a single polypeptide of 42 kilodaltons. Similarly, N-terminal amino acid sequencing of the PG 2A/2B isozyme mixture yielded a single 21 amino acid N-terminal sequence, suggesting that the two isozymes result from differential post-translational processing of a single polypeptide. Translation of PG mRNA in vitro results in the synthesis of a single polypeptide with an apparent molecular weight of 54 kilodaltons. Nucleotide sequence analysis of a full-length PG cDNA clone indicates that the large size difference between the PG in vitro translation product and the mature isozymes is due to the presence of a 71 amino acid (8.2 kilodaltons) domain at the N-terminus of in vitro translated PG, consisting of a hydrophobic signal sequence followed by a highly charged prosequence. To determine the precise cleavage site of the signal sequence, PG mRNA was translated in vitro in the presence of canine pancreas microsomal membranes. This resulted in the production of two glycosylated PG processing intermediates with apparent molecular weights of 58 and 61 kilodaltons. The PG processing intermediates were shown to be sequestered within the lumen of the microsomal membranes by protease protection and centrifugational analysis. Deglycosylation of the PG processing intermediates with endoglycosidase H yielded a single polypeptide with an apparent molecular weight of 54 kilodaltons. The production of two distinct, glycosylated processing intermediates from the single in vitro translated PG polypeptide suggests a mechanism by which the differential glycosylation observed for the mature PG 2A and PG 2B isozymes may occur. Edman degradation of 3H-labeled 58 and 61 kilodalton PG processing intermediates indicates that the site of signal sequence cleavage is after amino acid 24 (serine). These results suggest that the proteolytic processing of PG occurs in at least two steps, the first being the co-translational removal of the 24 amino acid signal sequence and the second being the presumed post-translational removal of the remaining highly charged 47 amino acid prosequence.  相似文献   

14.
15.
《Gene》1997,203(1):43-49
Zinc-finger proteins of the Cys2His2 type bind DNA–RNA hybrids with affinities comparable to those for DNA duplexes. Such zinc-finger proteins were converted into site-specific cleaving enzymes by fusing them to the FokI cleavage domain. The fusion proteins are active and under optimal conditions cleave DNA duplexes in a sequence-specific manner. These fusions also exhibit site-specific cleavage of the DNA strand within DNA–RNA hybrids albeit at a lower efficiency (≃50-fold) compared to the cleavage of the DNA duplexes. These engineered endonucleases represent the first of their kind in terms of their DNA–RNA cleavage properties, and they may have important biological applications.  相似文献   

16.
17.
The notion that homologous recombination is a regulated biological process is not a familiar one. In yeasts, homologous recombination and most site-specific ones are initiated by site-specific double-stranded breaks that are introduced within cis-acting elements for the recombination. On the other hand, yeasts have a group of site-specific endonucleases (multi-site-specific endonucleases) that have a number of cleavage sites on each DNA. One of them, Endo.SceI of S. cerevisiae, was shown to introduce double-stranded breaks at a number of welldefined sites on the mitochondrial DNA in vivo. An Endo.SceI-induced double-stranded break was demonstrated to induce homologous recombination in mitochondria. Like the case of homologous recombination of nuclear chromosomes, the double-stranded break induces gene conversion of both genetic markers flanking and in the proximity of the cleavage site, and the cleaved DNA acts as a recipient of genetic information from the uncleaved partner DNA. The 70 kDa-heat-shock protein (HSP70)-subunit of Endo.SceI and a general role of the HSP70 in the regulation of protein-folding suggest the regulation of nucleolytic activity of Endo.SceI.  相似文献   

18.
19.
We have studied the aberrant tubular polyheads of bacteriophages T4D and T2L as a model system for capsid maturation. Six different types of polyhead surface lattice morphology, and the corresponding protein compositions are reported and discussed. Using in vitro systems to induce transformations between particular polyhead types, we have deduced that the structural classes represent successive points in a transitional pathway. In the first step, coarse polyheads (analogous to the prohead τ-particle) are proteolytically cleaved by a phagecoded protease, a fragment of the gene 21 product. This cleavage of P23 to P231 induces a co-operative lattice transformation in the protein of the surface shell, to a conformation equivalent to that of T2L giant phage capsids. These polyheads (derived either from T4 or T2L lysates) can accept further T4-coded proteins. In doing so, they pass through intermediate structural states, eventually reaching an end point whose unit cell morphology is indistinguishable from that of the giant T4 capsids. At least one protein (called soc (Ishii & Yanagida, 1975)) is bound stoichiometrically to P231 in the end-state conformation. The simulation of several aspects of capsid maturation (cleavage of P23 to P231, stabilization, and lattice expansion) in the polyhead pathway suggest that it parallels the major events of phage T-even capsid maturation, decoupled from any involvement of DNA packaging.  相似文献   

20.
Genome comparison and genome context analysis were used to find a putative mobile element in the genome of Photorhabdus luminescens, an entomopathogenic bacterium. The element is composed of 16-bp direct repeats in the terminal regions, which are identical to a part of insertion sequences (ISs), a DNA methyltransferase gene homolog, two genes of unknown functions and an open reading frame (ORF) (plu0599) encoding a protein with no detectable sequence similarity to any known protein. The ORF (plu0599) product showed DNA endonuclease activity, when expressed in a cell-free expression system. Subsequently, the protein, named R.PluTI, was expressed in vivo, purified and found to be a novel type IIF restriction enzyme that recognizes 5′-GGCGC/C-3′ (/ indicates position of cleavage). R.PluTI cleaves a two-site supercoiled substrate at both the sites faster than a one-site supercoiled substrate. The modification enzyme homolog encoded by plu0600, named M.PluTI, was expressed in Escherichia coli and shown to protect DNA from R.PluTI cleavage in vitro, and to suppress the lethal effects of R.PluTI expression in vivo. These results suggested that they constitute a restriction–modification system, present on the putative mobile element. Our approach thus allowed detection of a previously uncharacterized family of DNA-interacting proteins.  相似文献   

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