ELISA kit ALPI,Bos taurus,Bovine,IAP,Intestinal alkaline phosphatase,Intestinal-type alkaline phosphatase
- Known as:
- Enzyme-linked immunosorbent assay test reagent ALPI,Bos taurus,Bovine,IAP,Intestinal alkaline phosphatase,Intestinal-classification alkaline phosphatase
- Catalog number:
- E0233b
- Product Quantity:
- 96T
- Category:
- -
- Supplier:
- EIAab
- Gene target:
- ELISA kit ALPI Bos taurus Bovine IAP Intestinal alkaline phosphatase Intestinal-type
Related genes to: ELISA kit ALPI,Bos taurus,Bovine,IAP,Intestinal alkaline phosphatase,Intestinal-type alkaline phosphatase
- Gene:
- ALPI NIH gene
- Name:
- alkaline phosphatase, intestinal
- Previous symbol:
- -
- Synonyms:
- IAP
- Chromosome:
- 2q37.1
- Locus Type:
- gene with protein product
- Date approved:
- 1986-01-01
- Date modifiied:
- 2018-02-28
Related products to: ELISA kit ALPI,Bos taurus,Bovine,IAP,Intestinal alkaline phosphatase,Intestinal-type alkaline phosphatase
Alkaline Phosphatase Conjugated Affinity Purified anti-Swine IgG (H&L) [Goat] Secondary_Antibodies Alkaline Phosphatase Conjugated Affinity Purified anti_Swine IgG (H&L) [Goat]
Human ELC ELISA KIT 96 TEST
OxiSelect In Vitro ROS/RNS Assay Kit (Green Fluorescence), Trial Size
OxiSelect Methylglyoxal (MG) Competitive ELISA Kit
OxiSelect Methylglyoxal (MG) Competitive ELISA Kit
OxiSelect TBARS Assay Kit (MDA Quantitation), Trial Size
OxiSelect Total Antioxidant Capacity (TAC) Assay Kit, Trial Size
OxiSelect™ In Vitro ROS RNS Assay Kit (Green Fluorescence), Trial Sizeα1(I) Collagen (614 - 639), Type I Collagen α1(I) C - Telopeptide, human(1-3)-beta-D-glucan Sandwich ELISA, Double Antibody(1-Kit )11,12-EET DHET Immunoassay Kit(1-Kit )11,12-EET_DHET Immunoassay Kit(1-Kit) 11,12-DHET Immunoassay Kit(1-Kit) 14,15-DHET Human Urine ELISA Kit Related articles to: ELISA kit ALPI,Bos taurus,Bovine,IAP,Intestinal alkaline phosphatase,Intestinal-type alkaline phosphatase
- The present work proposes to investigate the effect of an ultrahigh molecular weight silicone rubber (UHMW-SR) and two ethylene methyl acrylate copolymers (EMA) with different methyl acrylate (MA) content on the mechanical and fire performance of a fireproof acrylonitrile butadiene styrene copolymer (ABS) composite, with an optimum amount of ammonium polyphosphate (APP) and aluminum diethyl phosphinate (AlPi). ABS formulations with a global flame retardant weight content of 20 wt.% (ABS P) were melt-compounded, with and without EMA and UHMW-SR, in a Brabender mixer. During this batch process, ABS P formulations with UHMW-SR and/or EMA registered lower torque values than those of ABS P. By means of scanning electron microscopy (SEM), it was possible to observe that all ABS composites exhibited a homogenous structure without phase separation or particle agglomeration. Slightly improved interfacial interaction between the well-dispersed flame-retardant particles in the presence of EMA and/or UHMW-SR was also noticed. Furthermore, synergies in mechanical properties by adding both EMA and UHMW-SR into ABS P were ascertained. An enhancement of molecular mobility that contributed to the softening of ABS P was observed under dynamic mechanical thermal analysis (DMTA). An improvement of its flexibility, ductility and toughness were also registered under three-point-bending trials, and even more remarkable synergies were noticed in Charpy notched impact strength. Particularly, a 212% increase was achieved when 5 wt.% of EMA with 29 wt.% of MA and 2 wt.% of UHMW-SR in ABS P (ABS E29 S P) were added. Thermogravimetric analysis (TGA) showed that the presence of EMA copolymers in ABS P formulations did not interfere with its thermal decomposition, whereas UHMW-SR presence decreased its thermal stability at the beginning of the decomposition. Although the addition of EMA or UHMW-SR, as well as the combination of both in ABS P increased the pHRR in cone calorimetry, UL 94 V-0 classification was maintained for all flame-retarded ABS composites. In addition, through SEM analysis of cone calorimetry sample residue, a more cohesive surface char layer, with Si-O-C network formation confirmed by Fourier transform infrared (FTIR), was shown in ABS P formulations with UHMW-SR. - Source: PubMed
Publication date: 2024/03/27
Ghonjizade-Samani FarnazHaurie LaiaMalet RamónPérez MarcRealinho Vera - Patients with Skraban-Deardorff syndrome (SKDEAS), a neurodevelopmental syndrome associated with a spectrum of developmental and intellectual delays and disabilities, harbor diverse mutations in WDR26, encoding a subunit of the multiprotein CTLH E3 ubiquitin ligase complex. Structural studies revealed that homodimers of WDR26 bridge two core-CTLH E3 complexes to generate giant, hollow oval-shaped supramolecular CTLH E3 assemblies. Additionally, WDR26 mediates CTLH E3 complex binding to subunit YPEL5 and functions as substrate receptor for the transcriptional repressor HBP1. Here, we mapped SKDEAS-associated mutations on a WDR26 structural model and tested their functionality in complementation studies using genetically engineered human cells lacking CTLH E3 supramolecular assemblies. Despite the diversity of mutations, 15 of 16 tested mutants impaired at least one CTLH E3 complex function contributing to complex assembly and interactions, thus providing first mechanistic insights into SKDEAS pathology. - Source: PubMed
Publication date: 2024/04/04
Gross AnnetteMüller JudithChrustowicz JakubStrasser AlexanderGottemukkala Karthik VSherpa DawafutiSchulman Brenda AMurray Peter JAlpi Arno F - With the rapid increase of the number of patients with gastrointestinal diseases in modern society, the need for the development of physiologically relevant in vitro intestinal models is key to improve the understanding of intestinal dysfunctions. This involves the development of a scaffold material exhibiting physiological stiffness and anatomical mimicry of the intestinal architecture. The current work focuses on evaluating the scaffold micromorphology of gelatin-methacryloyl-aminoethyl-methacrylate-based nonporous and porous intestinal 3D, intestine-like constructs, fabricated via digital light processing, on the cellular response. To this end, Caco-2 intestinal cells were utilized in combination with the constructs. Both porous and nonporous constructs promoted cell growth and differentiation toward enterocyte-like cells (VIL1, ALPI, SI, and OCLD expression showed via qPCR, ZO-1 via immunostaining). The porous constructs outperformed the nonporous ones regarding cell seeding efficiency and growth rate, confirmed by MTS assay, live/dead staining, and TEER measurements, due to the presence of surface roughness. - Source: PubMed
Publication date: 2024/04/02
Szabó AnnaDe Vlieghere EllyCosta Pedro FGeurs IndiDewettinck KoenMaes LaureLaukens DebbyVan Vlierberghe Sandra - The thermoresponsive properties of poloxamine (tetra-branch PEO-PPO block copolymer) hydrogels are related to several variables. Of particular interest to this study were the molecular weight of the polymer, the molar ratio between PEO and PPO blocks, and the concentration of the aqueous solution. Accurately controlling the thermoresponsive behaviors of the polymer is critical to the application of such materials; therefore, the structure-property relationship of tetra-branch PEO-PPO block copolymer was studied by synthesis via anionic ring-opening polymerization (AROP). The structure-property relationships were studied by measuring the thermoresponsive behavior via differential scanning calorimetry (DSC) and developing an empirical model which statistically fit the collected data. This empirical model was then used for designing poloxamines that have critical micellization temperatures (CMT) between room temperature and physiological temperature. The model was validated with three polymers that targeted a CMT of 308 K (35°C). The empirical model showed great success in guiding the synthesis of poloxamines showing a temperature difference of less than 3 K between the predicted and the observed CMTs. This study showed a great potential of using an empirical model to set synthesis parameters to control the properties of the polymer products. - Source: PubMed
Publication date: 2024/02/07
Yan ZichunBrown D AndrewAlpi TreyNagatomi JiroMefford O Thompson - Trees and shrubs expanded in the last decades in European mountains due to land abandonment and the decrease in grazing pressure, and are expected to further spread also due to climate change. As a consequence of low forage quality and topographic constraints, the management of mountain environments dominated by woody vegetation with livestock is often challenging. Silvopastoral systems based on cattle hardy breeds able to forage on woody plants, such as Highland cattle, could be a suitable option for the management and restoration of such environments. In this study, we used direct observations to explore the foraging behavior of Highland cattle in four study areas across the western Alps. In particular, we assessed: (1) cattle diet composition, (2) the selection for more than 30 tree and shrub species, and (3) the relationships between species consumption and their abundance in the environment. Highland cattle fed on a mixture of both woody and herbaceous species, including between 15 and 46% of woody plants in the diet. Some trees (e.g., , spp., and ) and shrubs (e.g., , spp., and ) were positively selected by cattle, thus they could be an important forage supplement to their diet. Moreover, the results highlighted that relative species consumption generally increased with increasing species abundance in the environment, suggesting that this cattle breed could be suitable to control shrub expansion in highly encroached areas. The outcomes of this study can support the development of targeted silvopastoral systems in the Alps. - Source: PubMed
Publication date: 2023/12/22
Nota GinevraSvensk MiaBarberis DavideFrund DavidPagani RebeccaPittarello MarcoProbo MassimilianoRavetto Enri SimoneLonati MicheleLombardi Giampiero