Mouse IgG2c (Fc) (min X Hu, Bov, Rb Sr Prot)

Price:
584 EUR
700 USD
484 GBP
known as: Mouse IgG2c (Fc) (min X Hu, Bov, Rb Sr Prot)
Catalog number: genta-JGM005208
Product Quantity: 1 mg.
Category:
Supplier: Accu

   CAPTCHA Image   Reload Image

Gene target: igg2c fc min x hu bov rb sr prot

Related genes to: Mouse IgG2c (Fc) (min X Hu, Bov, Rb Sr Prot)

Symbol : min NIH gene
Synonyms : mi
dbXrefs : FLYBASE:FBgn0002747
chromosome : 2
map location : 56E-56E|2-90 cM
description : mini
type of gene : unknown
Modification date : 2016-05-09
Symbol : Prot NIH gene
dbXrefs : MGI:MGI:107578
chromosome : 18
description : proline transporter
type of gene : protein-coding
Symbol from nomenclature authority : Prot
Full name from nomenclature authority : proline transporter
Nomenclature status : O
Modification date : 2016-07-02

Related Pathways to: Mouse IgG2c (Fc) (min X Hu, Bov, Rb Sr Prot)

Related product to: Mouse IgG2c (Fc) (min X Hu, Bov, Rb Sr Prot)

Related Articles about: Mouse IgG2c (Fc) (min X Hu, Bov, Rb Sr Prot)

MinE conformational dynamics regulate membrane binding, MinD interaction, and Min oscillation.

In Escherichia coli MinE induces MinC/MinD to oscillate between the ends of the cell, contributing to the precise placement of the Z ring at midcell. To do this, MinE undergoes a remarkable conformational change from a latent 6β-stranded form that diffuses in the cytoplasm to an active 4β-stranded form bound to the membrane and MinD. How this conformational switch occurs is not known. Here, using hydrogen-deuterium exchange coupled to mass spectrometry (HDX-MS) we rule out a model in which the two forms are in rapid equilibrium. Furthermore, HDX-MS revealed that a MinE mutant (D45A/V49A), previously shown to produce an aberrant oscillation and unable to assemble a MinE ring, is more rigid than WT MinE. This mutant has a defect in interaction with MinD, suggesting it has difficulty in switching to the active form. Analysis of intragenic suppressors of this mutant suggests it has difficulty in releasing the N-terminal membrane targeting sequences (MTS). These results indicate that the dynamic association of the MTS with the β-sheet is fine-tuned to balance MinE's need to sense MinD on the membrane with its need to diffuse in the cytoplasm, both of which are necessary for the oscillation. The results lead to models for MinE activation and MinE ring formation. - Source :PubMed

Chronic Trichuris muris infection causes neoplastic change in the intestine and exacerbates tumour formation in APC min/+ mice.

Incidences of infection-related cancers are on the rise in developing countries where the prevalence of intestinal nematode worm infections are also high. Trichuris muris (T. muris) is a murine gut-dwelling nematode that is the direct model for human T. trichiura, one of the major soil-transmitted helminth infections of humans. In order to assess whether chronic infection with T. muris does indeed influence the development of cancer hallmarks, both wild type mice and colon cancer model (APC min/+) mice were infected with this parasite. Parasite infection in wild type mice led to the development of neoplastic change similar to that seen in mice that had been treated with the carcinogen azoxymethane. Additionally, both chronic and acute infection in the APCmin/+ mice led to an enhanced tumour development that was distinct to the site of infection suggesting systemic control. By blocking the parasite specific T regulatory response in these mice, the increase in the number of tumours following infection was abrogated. Thus T. muris infection alone causes an increase in gut pathologies that are known to be markers of cancer but also increases the incidence of tumour formation in a colon cancer model. The influence of parasitic worm infection on the development of cancer may therefore be significant. - Source :PubMed

Reliability, validity, and norms of the 2-min walk test in children with and without neuromuscular disorders aged 6-12.

The 2-min walk test may be more appropriate functional exercise test for young children. This study aimed to examine the 2-min walk test's reliability; validity; and minimal clinically important difference; and to establish norms for children aged 6-12. - Source :PubMed

Dynamics of dissolved nutrients in the aquaculture shrimp ponds of the Min River estuary, China: Concentrations, fluxes and environmental loads.

Dissolved inorganic nutrients (NO2(-)-N, NO3(-)-N, NH4(+)-N, and PO4(3-)-P) play a critical role in the effective management of water quality and prevention of fish and shrimp diseases in aquaculture systems. In this study, dissolved inorganic nutrient concentrations in the water column and sediment porewater, and the fluxes across the sediment-water interface (SWI) were investigated in three intensive shrimp ponds with zero water exchange to examine nutrient cycling during the different growth stages of shrimps. Distinct changes in the dissolved inorganic nutrient concentrations in both the water column and sediment porewater were observed among the three growth stages. Average NO2(-)-N, NO3(-)-N, NH4(+)-N, and PO4(3-)-P concentrations in the sediment porewater were 3.53, 2.81, 29.68, and 6.44 times higher, respectively, than those in the water column over the study period, indicating that the pond sediment acted as a net source of nutrients to the water column. This was further supported by the net release of nutrients from the sediments to the water column observed during the incubation experiment. Nutrient fluxes were dominated by NH4(+)-N, while NOx(-)-N (NO2(-)-N and NO3(-)-N) and PO4(3-)-P fluxes remained low. The high rates of NH4(+)-N release from the sediment highlight the need of taking into account the biogeochemical role of sediments in mitigating the problem of water quality degradation in coastal shrimp ponds. Based on a total water surface area of mariculture ponds and a total mariculture production of 2.57×10(6)ha and 2.30×10(9)kg, respectively, we estimated conservatively that approximately 4.77×10(4)tons of total nitrogen and 3.75×10(3)tons of total phosphorus are being discharged annually from the mariculture ponds into the adjacent coastal zones across China. Results demonstrated the importance of aquaculture pond effluent as a major contributor of water pollution in the coastal areas of China, and called for actions to properly treat these effluents in alleviating the eutrophication problem in the Chinese coastal zones. - Source :PubMed

Decision-to-delivery interval: Is 30 min the magic time? What is the evidence? Does it work?

Emergency caesarean section is required when delivery can reduce the risk to the life of the mother or foetus. When a caesarean section is indicated for foetal compromise, a decision-to-delivery interval of 30 min (or less) has been suggested as the ideal time frame within which an obstetric team should achieve delivery. In theory, a short decision-to-delivery interval may minimise intra-uterine hypoxia and improve neonatal outcome. Current medical evidence does not support this time frame. There are certain indications for caesarean section that necessitate a much shorter decision-to-delivery interval, but evidence suggests that the majority of neonates may be safely delivered within a longer interval of time. Current tools available for the diagnosis of foetal distress are imperfect, and the concept of foetal distress is poorly defined. Future research should focus on finding accurate means of diagnosing foetal distress in labouring women and establishing universally agreed evidence-based decision-to-delivery targets without compromising maternal or foetal safety. - Source :PubMed

Gentaur adresses


GENTAUR Europe BVBA
Voortstraat 49, 1910 Kampenhout BELGIUM
Tel 0032 16 58 90 45
Fax 0032 16 50 90 45
info@gentaur.com
GENTAUR France SARL
9, rue Lagrange, 75005 Paris
Tel 01 43 25 01 50
Fax 01 43 25 01 60
france@gentaur.com
dimi@gentaur.com
GENTAUR Ltd.
Howard Frank Turnberry House
1404-1410 High Road
Whetstone London N20 9BH
Tel 020 3393 8531
Fax 020 8445 9411
uk@gentaur.com
GENTAUR Poland Sp. z o.o.
ul. Grunwaldzka 88/A m.2
81-771 Sopot, Poland
Tel 058 710 33 44
Fax 058 710 33 48
poland@gentaur.com
GENTAUR Nederland BV
Kuiper 1
5521 DG Eersel Nederland
Tel 0208-080893
Fax 0497-517897
nl@gentaur.com
GENTAUR SRL IVA IT03841300167
Piazza Giacomo Matteotti, 6, 24122 Bergamo
Tel 02 36 00 65 93
Fax 02 36 00 65 94
italia@gentaur.com
GENTAUR bulgaria
53 Iskar Str. Kokalyane,
Sofia 1191
Tel 0035929830070
Fax 0035929830072
sofia@gentaur.com
GENTAUR Spain
Tel 0911876558
spain@gentaur.com
GENTAUR USA
Genprice Inc, Logistics
547 Yurok Circle
San Jose, CA 95123
invoicing/ accounting:
6017 Snell Ave, Suite 357
San Jose, CA. 96123
Tel 001 408 780 0908
jane@gentaur.com