Different Detection Strategies of Pediocin-Like Produced by Pediococcus pentosaceus.

In this study, Pediococcus pentosaceus C-2-1 and C23221 contained genes encoding penocin and pediocin PA-1, mined by antiSMASH. The penocin structural gene pedA from Pediococcus pentosaceus C-2-1 was successfully expressed in Escherichia coli BL21. The presence of a 6.

CRISPR-Cas12-based nucleic acids detection systems.

Because of the outstanding contribution in genome editing, CRISPR has undoubtedly become the most popular technology around the world and two pioneers are awarded the Nobel Prize in Chemistry this year. Besides, along with the discovery of nonspecific trans-cleavage activities of several Cas proteins such as Cas12 and Cas13, many CRISPR-based molecular diagnostic systems have been successfully created, showing advantages in sensitivity, specificity and operation convenience. Among them, systems with Cas12, which targets DNA and trans-cleaves single-stranded DNA probes, are both simple and highly efficient.

A novel autoantibody targeting calreticulin is associated with cancer in patients with idiopathic inflammatory myopathies.

Objectives: To investigate the prevalence and clinical significance of anti-calreticulin autoantibodies (anti-CRT Ab) in a large cohort of idiopathic inflammatory myopathy (IIM) patients.

Methods: Sera from 469 patients with IIM, 196 patients with other connective tissue diseases, 28 patients with solid tumors and 81 healthy controls were screened for anti-CRT Ab by enzyme-linked immunosorbent assay using human recombinant CRT protein. Sera from 35 IIM patients were tested using an immunoprecipitation assay to confirm the presence of anti-CRT Ab.

Erratum: Author Correction: CRISPR-Cas12a-assisted nucleic acid detection.

[This corrects the article DOI: 10.1038/s41421-018-0028-z.].

Multiplex gene regulation by CRISPR-ddCpf1.

The clustered regularly interspaced short palindromic repeats (CRISPR)/dCas9 system has been widely applied in both transcriptional regulation and epigenetic studies. However, for multiple targets, independent expression of multiple single guide RNAs (sgRNAs) is needed, which is less convenient. To address the problem, we employed a DNase-dead Cpf1 mutant (ddCpf1) for multiplex gene regulation.

A Novel and Efficient Method for Bacteria Genome Editing Employing both CRISPR/Cas9 and an Antibiotic Resistance Cassette.

As Cas9-mediated cleavage requires both protospacer and protospacer adjacent motif (PAM) sequences, it is impossible to employ the CRISPR/Cas9 system to directly edit genomic sites without available PAM sequences nearby. Here, we optimized the CRISPR/Cas9 system and developed an innovative two-step strategy for efficient genome editing of any sites, which did not rely on the availability of PAM sequences. An antibiotic resistance cassette was employed as both a positive and a negative selection marker.

Biosynthesis of the pyrrolidine protein synthesis inhibitor anisomycin involves novel gene ensemble and cryptic biosynthetic steps.

The protein synthesis inhibitor anisomycin features a unique benzylpyrrolidine system and exhibits diverse biological and pharmacologic activities. Its biosynthetic origin has remained obscure for more than 60 y, however. Here we report the identification of the biosynthetic gene cluster (BGC) of anisomycin in var.

DndEi Exhibits Helicase Activity Essential for DNA Phosphorothioate Modification and ATPase Activity Strongly Stimulated by DNA Substrate with a GAAC/GTTC Motif.

Phosphorothioate (PT) modification of DNA, in which the non-bridging oxygen of the backbone phosphate group is replaced by sulfur, is governed by the DndA-E proteins in prokaryotes. To better understand the biochemical mechanism of PT modification, functional analysis of the recently found PT-modifying enzyme DndEi, which has an additional domain compared with canonical DndE, from Riemerella anatipestifer is performed in this study. The additional domain is identified as a DNA helicase, and functional deletion of this domain in vivo leads to PT modification deficiency, indicating an essential role of helicase activity in PT modification.

In vitro analysis of phosphorothioate modification of DNA reveals substrate recognition by a multiprotein complex.

A wide variety of prokaryotes possess DNA modifications consisting of sequence-specific phosphorothioates (PT) inserted by members of a five-gene cluster. Recent genome mapping studies revealed two unusual features of PT modifications: short consensus sequences and partial modification of a specific genomic site in a population of bacteria. To better understand the mechanism of target selection of PT modifications that underlies these features, we characterized the substrate recognition of the PT-modifying enzymes termed DptC, D and E in a cell extract system from Salmonella.

Regulation of DNA phosphorothioate modifications by the transcriptional regulator DptB in Salmonella.

DNA phosphorothioate (PT) modifications, with one non-bridging phosphate oxygen replaced with sulfur, are widely but sporadically distributed in prokaryotic genomes. Short consensus sequences surround the modified linkage in each strain, although each site is only partially modified. The mechanism that maintains this low-frequency modification status is still unknown.

Pathological phenotypes and in vivo DNA cleavage by unrestrained activity of a phosphorothioate-based restriction system in Salmonella.

Prokaryotes protect their genomes from foreign DNA with a diversity of defence mechanisms, including a widespread restriction-modification (R-M) system involving phosphorothioate (PT) modification of the DNA backbone. Unlike classical R-M systems, highly partial PT modification of consensus motifs in bacterial genomes suggests an unusual mechanism of PT-dependent restriction. In Salmonella enterica, PT modification is mediated by four genes dptB-E, while restriction involves additional three genes dptF-H.

Genomic mapping of phosphorothioates reveals partial modification of short consensus sequences.

Bacterial phosphorothioate (PT) DNA modifications are incorporated by Dnd proteins A-E and often function with DndF-H as a restriction-modification (R-M) system, as in Escherichia coli B7A. However, bacteria such as Vibrio cyclitrophicus FF75 lack dndF-H, which points to other PT functions. Here we report two novel, orthogonal technologies to map PTs across the genomes of B7A and FF75 with >90% agreement: single molecule, real-time sequencing and deep sequencing of iodine-induced cleavage at PT (ICDS).

Three functional replication origins of the linear and artificially circularized plasmid SCP1 of Streptomyces coelicolor.

Previous reports showed that the large linear plasmid SCP1 of Streptomyces coelicolor A3(2) contains a 5.4 kb centrally located replication locus. We report here that SCP1 actually contains three internal replication loci.

A putative transglycosylase encoded by SCO4132 influences morphological differentiation and actinorhodin production in Streptomyces coelicolor.

Here we report that tgdA, a novel gene encoding a putative transglycosylase, affects both the morphological differentiation and the yield of blue-pigmented compound actinorhodin in Streptomyces coelicolor. The tgdA null mutant displays sparse aerial hyphae and irregular spore chains frequently lacking chromosomal DNA. Elevated actinorhodin production coincides with the overexpression of actII-orf4 in mutant.

Characterization of replication and conjugation of plasmid pWTY27 from a widely distributed Streptomyces species.

Background: Streptomyces species are widely distributed in natural habitats, such as soils, lakes, plants and some extreme environments. Replication loci of several Streptomyces theta-type plasmids have been reported, but are not characterized in details. Conjugation loci of some Streptomyces rolling-circle-type plasmids are identified and mechanism of conjugal transferring are described.

[Plasmid pCQ4 and its phage phiCQ4 of endophytic Streptomyces sp. from Artemisia annua L].

Objective: Large plasmid pCQ4 was detected in Streptomyces sp. W75 from Artemisia annua L. We clonined, sequenced, analyzed and characterized pCQ4.

A self-ligation method for PCR-sequencing the telomeres of Streptomyces and Mycobacterium linear replicons.

Actinomycete species from many genera often harbor linear plasmids and some contain linear chromosomes. A self-ligation and PCR-sequencing method was developed for identifying three novel telomere sequences of linear plasmids of Streptomyces and Mycobacterium. This and four previously described methods for actinomycetes telomere cloning and sequencing are discussed.

Characterization of the multiple CRISPR loci on Streptomyces linear plasmid pSHK1.

The complete nucleotide sequence including the novel telomere sequence of Streptomyces linear plasmid pSHK1 consists of 187,263-bp, 158 genes, in which 51 genes resemble those of the linear plasmid SCP1 of Streptomyces coelicolor A3(2), and 20 genes encode transposases. Strikingly, the repetitive CRISPRs (clustered regularly interspaced short palindromic repeats) and cas (CRISPR-associated) genes were found, including a cluster of eight cas genes, in the order cas2B-cas1B-cas3B-cas5-cas4-cas2A-cas1A-cas3A, bracketed by a pair of divergent CRISPRs, and five other dispersed CRISPRs. The cas2B-cas1B-cas3B-cas5 or cas4-cas2A-cas1A genes were co-transcribed.

[Cloning and identification of telomere and internal origin of the endophytic Streptomyces linear plasmid pYY8L from Allium fistulosum].

Unlabelled: Strain 36R-2-1B was isolated from Allium fistulosum and identified as Streptomyces spp., harboring an approximate 280 kb linear plasmid designated pYY8L.

Objective: Cloning, sequencing and analysis of telomere and internal replication origin of pYY8L.

Characterization of the replication, transfer, and plasmid/lytic phage cycle of the Streptomyces plasmid-phage pZL12.

We report here the isolation and recombinational cloning of a large plasmid, pZL12, from endophytic Streptomyces sp. 9R-2. pZL12 comprises 90,435 bp, encoding 112 genes, 30 of which are organized in a large operon resembling bacteriophage genes.

Discovery of the autonomously replicating plasmid pMF1 from Myxococcus fulvus and development of a gene cloning system in Myxococcus xanthus.

Myxobacteria are very important due to their unique characteristics, such as multicellular social behavior and the production of diverse and novel bioactive secondary metabolites. However, the lack of autonomously replicating plasmids has hindered genetic manipulation of myxobacteria for decades. To determine whether indigenous plasmids are present, we screened about 150 myxobacterial strains, and a circular plasmid designated pMF1 was isolated from Myxococcus fulvus 124B02.

Catechol 2,3-dioxygenase from Pseudomonas sp. strain ND6: gene sequence and enzyme characterization.

The catechol 2,3-dioxygenase (C23O) gene in naphthalene catabolic plasmid pND6-1 of Pseudomonas sp. ND6 was cloned and sequenced. The C23O gene was consisted of 924 nucleotides and encoded a polypeptide of molecular weight 36 kDa containing 307 amino acid residues.