Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:3.1.27.4 (
ribonuclease
)
6,621
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
S-type pyocins are bacteriocins produced by Pseudomonas aeruginosa isolates to antagonize or kill other strains of the same species. They have a modular organization comprising a receptor-binding domain recognizing a surface constituent of the target bacterium, a domain for translocation through the periplasm, and a killing or toxic domain with DNase, tRNase, or pore-forming activity. Pyocins S2, S3, S4, and S5 recognize TonB-dependent ferri-siderophore receptors in the outer membrane. We here describe a new nuclease bacteriocin, pyocin S6, encoded in the genome of a P. aeruginosa cystic fibrosis (CF) clinical isolate, CF_PA39. Similarly to pyocins S1 and S2, the S6 toxin-immunity gene tandem was recruited to the genomic region encoding exotoxin A. The pyocin S6 receptor-binding and translocation domains are identical to those of pyocin S1, whereas the killing domain is similar to the 16S
ribonuclease
domain of Escherichia coli colicin E3. The cytotoxic activity was abolished in pyocin S6 forms with a mutation in the colicin E3-equivalent catalytic motif. The CF_PA39 S6 immunity gene displays a higher expression level than the gene encoding the killing protein, the latter being only detected when bacteria are grown under
iron
-limiting conditions. In the S1-pyocinogenic strain P. aeruginosa ATCC 25324 and pyocin S2 producer P. aeruginosa PAO1, a remnant of the pyocin S6 killing domain and an intact S6-type immunity gene are located downstream of their respective pyocin operons. Strain PAO1 is insensitive for pyocin S6, and its S6-type immunity gene provides protection against pyocin S6 activity. Purified pyocin S6 inhibits one-fifth of 110 P. aeruginosa CF clinical isolates tested, showing clearer inhibition zones when the target cells are grown under
iron
limitation. In this panel, about half of the CF clinical isolates were found to host the S6 genes. The pyocin S6 locus is also present in the genome of some non-CF clinical isolates.
...
PMID:Identification and functional analysis of a bacteriocin, pyocin S6, with ribonuclease activity from a Pseudomonas aeruginosa cystic fibrosis clinical isolate. 2686 Apr 27
Helicobacter pylori
is a Gram-negative bacterium that colonizes the human gastric mucosa and is responsible for causing peptic ulcers and gastric carcinoma. The expression of virulence factors allows the persistence of
H. pylori
in the stomach, which results in a chronic, sometimes uncontrolled inflammatory response. Type II toxin-antitoxin (TA) systems have emerged as important virulence factors in many pathogenic bacteria. Three type II TA systems have previously been identified in the genome of
H. pylori
26695: HP0315-HP0316, HP0892-HP0893, and HP0894-HP0895. Here we characterized a heretofore undescribed type II TA system in
H. pylori
, HP0967-HP0968, which is encoded by the bicistronic operon
hp0968-hp0967
and belongs to the Vap family. The predicted HP0967 protein is a toxin with
ribonuclease
activity whereas HP0968 is an antitoxin that binds to its own regulatory region. We found that all type II TA systems were expressed in
H. pylori
during early stationary growth phase, and differentially expressed in the presence of urea, nickel, and
iron
, although, the
hp0968-hp0967
pair was the most affected under these environmental conditions. Transcription of
hp0968-hp0967
was strongly induced in a mature
H. pylori
biofilm and when the bacteria interacted with AGS epithelial cells. Kanamycin and chloramphenicol considerably boosted transcription levels of all the four type II TA systems. The
hp0968-hp0967
TA system was the most frequent among 317
H. pylori
strains isolated from all over the world. This study is the first report on the transcription of type II TA genes in
H. pylori
under different environmental conditions. Our data show that the HP0967 and HP0968 proteins constitute a
bona fide
type II TA system in
H. pylori
, whose expression is regulated by environmental cues, which are relevant in the context of infection of the human gastric mucosa.
...
PMID:Transcriptional Profiling of Type II Toxin-Antitoxin Genes of
Helicobacter pylori
under Different Environmental Conditions: Identification of HP0967-HP0968 System. 2792 Jul 69
Gene therapy and particularly small interfering RNA (siRNA) is a promising therapeutic method for treatment of various human diseases, especially cancer. However the lack of an ideal delivery system limits its clinical applications. Effective anticancer drug development represents the key for translation of research advances into medicines. Previously we reported, the optimization of magnetic siRNA nanovectors (MSN) formulation based on superparamagnetic
iron
oxide nanoparticles (SPION) and chitosan for systemic administration. This work aimed at using rational design to further optimize and develop MSN. Therefore, formulated MSN were first purified, then their physical and chemical properties were studied mainly through capillary electrophoresis. 95% of siRNA was found enclosed within the purified MSN (pMSN). pMSN showed colloidal stability at pH 7.4, effective protection of siRNA against
ribonuclease
degradation up to 24 hours and few siRNA release (less than 10%) at pH 7.4. These findings push toward further evaluation studies in vitro and/or in vivo, indicating the appropriateness of pMSN for cancer theranostics.
...
PMID:siRNA delivery system based on magnetic nanovectors: Characterization and stability evaluation. 2857 4
Mms6 is a protein that plays crucial role in the biomineralization and formation of magnetosomes in magnetotactic bacteria Magnetospirillum magneticum (strain AMB-1). We developed a fusion protein of C-term part of Mms6 and Barstar (natural inhibitor of
ribonuclease
Barnase), namely, Bs-C-Mms6. This protein successfully stabilized uncoated monocrystalline Fe
3
O
4
magnetite
nanoparticles in buffered solutions. Here, we present data regarding the synthesis and characterization of
magnetite
nanoparticles stabilized with Bs-C-Mms6. For further interpretation of the data presented in this article, please see the research article 'Self-assembling nanoparticles biofunctionalized with
magnetite
-binding protein for the targeted delivery to HER2/neu overexpressing cancer cells' (Shipunova et al., 2018) [1].
...
PMID:Data on characterization of magnetic nanoparticles stabilized with fusion protein of Barstar and C-term part of Mms6. 3050 96
Magnesium-stabilized amorphous calcium carbonate (Mg-ACC), amorphous magnesium calcium silicate hydrate (MCSH), and hydroxyapatite (HAp) are prepared by a precipitation method. By cold-pressing these particles, it is possible to produce porous bulk discs with a narrow pore size distribution. These porous inorganic discs (Mg-ACC, MCSH, and HAp) are investigated as stationary phases to study the chromatographic behavior and adsorption ability of rhodamine B, methylene blue, and
ribonuclease
. The adsorption affinities of different biomolecules can be easily observed and evaluated through this method. Furthermore, by infiltrating fabricated opaque porous discs with benzyl ether, which has a similar refractive index as the used inorganic particles (Mg-ACC, MCSH, and HAp), their optical properties significantly change and the discs become translucent. Moreover, by infiltrating the MCSH discs with a light-curing polymer, translucent composites with good surface hardness are fabricated. By doping particles with ions such as Ni
2+
, Co
2+
, Fe
3+
, and Eu
3+
, the color and UV-visible spectrum of the bulk discs can be adjusted. Typically, by using
iron
-doped MCSH particles as the inorganic matrix, nanocomposites, which show a steep UV-absorption edge at 400 nm, are fabricated. Our work provides a simple and economical method to evaluate the affinity of biomolecules to inorganic materials and a novel way to fabricate translucent hard composite materials. The fabricated nanocomposite discs show a great UV shielding effect and superior surface hardness compared to polymethyl methacrylate and commercial sunglasses, suggesting their potential as new sunglass materials.
...
PMID:Inorganic Porous Bulk Discs as a Matrix for Thin-Layer Chromatography and Translucent Hard Composite Materials. 3182 82
Rhizosphere microbiome significantly influences plant growth and productivity. Legume crops such as pea have often been used as a rotation crop along with rice cultivation in long-term conservation agriculture experiments in the acidic soils of the northeast region of India. It is essential to understand how the pea plant influences the soil communities and shapes its rhizosphere microbiome. It is also expected that the long-term application of nutrients and tillage practices may also have a lasting effect on the rhizosphere and soil communities. In this study, we estimated the bacterial communities by 16S rRNA gene amplicon sequencing of pea rhizosphere and bulk soils from a long-term experiment with multiple nutrient management practices and different tillage history. We also used Tax4Fun to predict the functions of bacterial communities. Quantitative polymerase chain reaction (qPCR) was used to estimate the abundance of total bacterial and members of Firmicutes in the rhizosphere and bulk soils. The results showed that bacterial diversity was significantly higher in the rhizosphere in comparison to bulk soils. A higher abundance of Proteobacteria was recorded in the rhizosphere, whereas the bulk soils have higher proportions of Firmicutes. At the genus level, proportions of
Rhizobium
,
Pseudomonas
,
Pantoea
,
Nitrobacter
,
Enterobacter
, and
Sphingomonas
were significantly higher in the rhizosphere. At the same time,
Massilia
,
Paenibacillus
, and
Planomicrobium
were more abundant in the bulk soils. Higher abundance of genes reported for plant growth promotion and several other genes, including
iron
complex outer membrane receptor, cobalt-zinc-cadmium resistance, sigma-70 factor, and
ribonuclease
E, was predicted in the rhizosphere samples in comparison to bulk soils, indicating that the pea plants shape their rhizosphere microbiome, plausibly to meet its requirements for nutrient uptake and stress amelioration.
...
PMID:Pea (
Pisum sativum
l.) Plant Shapes Its Rhizosphere Microbiome for Nutrient Uptake and Stress Amelioration in Acidic Soils of the North-East Region of India. 3258 47
<< Previous
1
2
3
4
