Large terrestrial carnivores have undergone some of the most important inhabitants declines and vary reductions of any species, which is of concern as they’ll have massive results on ecosystem dynamics and operate.1-4 The jaguar (Panthera onca) is the apex predator all through the bulk of the Neotropics; nonetheless, its distribution has been diminished by >50% and it survives in more and more remoted populations.
Consequently, the range-wide administration of the jaguar relies upon upon sustaining core populations related by way of multi-national, transboundary cooperation, which requires understanding the motion ecology and space use of jaguars all through their vary.6-8 Using GPS telemetry information for 111 jaguars from 13 ecoregions throughout the 4 biomes that represent the bulk of jaguar habitat, we examined the landscape-level environmental and anthropogenic factors associated to jaguar dwelling vary dimension and motion parameters.
Home vary dimension decreased with growing web productiveness and forest cowl and elevated with growing street density. Speed decreased with growing forest cowl with no sexual variations, whereas males had extra directional actions, however tortuosity in actions was not associated to any panorama factors. We demonstrated a synergistic relationship between landscape-scale environmental and anthropogenic factors and jaguars’ spatial wants, which has purposes to the conservation technique for the species all through the Neotropics.
Using large-scale collaboration, we overcame limitations from small pattern sizes typical in massive carnivore analysis to offer a mechanism to judge habitat high quality for jaguars and an inferential modeling framework adaptable to the conservation of different massive terrestrial carnivores.
Proteomic Analysis of Histone Crotonylation Suggests Diverse Functions in Myzus persicae
Myzus persicae is one of crucial financial pests of cultivated crops. In the current examine, we used an built-in method involving high-performance liquid chromatography fractionation, affinity enrichment, and mass spectrometry-based proteomics to hold out a complete proteomic evaluation of lysine crotonylation in M. persicae. Altogether, 7530 lysine crotonylation websites have been recognized in 2452 protein teams.
Intensive bioinformatic analyses have been then carried out to annotate these lysine crotonylated targets recognized in phrases of Gene Ontology annotation, area annotation, subcellular localization, Kyoto Encyclopedia of Genes and Genomes pathway annotation, practical cluster evaluation, and so forth. Analysis outcomes confirmed that lysine-crotonylated proteins have been concerned in lots of organic processes, such because the amino acid metabolism, aminoacyl-tRNA biosynthesis, spliceosomes, ribosomes, and so forth.
Notably, the interplay community confirmed that there have been 199 crotonylated proteins concerned within the amino acid metabolism and quite a few crotonylation targets related to fatty acid biosynthesis and degradation. The outcomes present a system-wide view of all the M. persicae crotonylome and a wealthy information set for practical evaluation of crotonylated proteins on this economically vital pest, which marks an vital starting for the additional analysis.

Advancing Undergraduate Synthetic Biology Education: Insights from a Canadian iGEM Student Perspective
The final twenty years have seen vigorous exercise in artificial biology analysis and ever-increasing purposes of its applied sciences. However, pedagogical analysis pertaining to instructing artificial biology is scarce, particularly when in comparison with different science and engineering disciplines. Within Canada there are solely three universities that provide artificial biology applications; two of that are on the undergraduate stage.
Rather than happen in formal tutorial settings, many Canadian undergraduate college students are launched to artificial biology by way of participation within the annual International Genetically Engineered Machine (iGEM) competitors. Although the iGEM competitors has had a transformative affect on artificial biology coaching in different nations, the affect in Canada has been comparatively modest.
Consequently, the iGEM competitors remains to be a significant setting for artificial biology schooling in Canada. To promote additional improvement of artificial biology schooling, we surveyed undergraduate college students from the Canadian iGEM design groups of 2019. We extracted insights from these information utilizing qualitative evaluation to offer suggestions for greatest instructing practices in artificial biology undergraduate schooling, which we describe by way of our proposed Framework for Transdisciplinary Synthetic Biology Education (FTSBE).
You May Read This: 4-Arm PEG-Acrylate is a multiarm abx085084 PEG derivative with acrylate groups at each terminal of the four arms connected to one pentaerythritol core. The 4arm-PEG acrylate can be used for radical initiator or UV light-induced polymerization to synthesize PEG hydrogel.
Curated Data In – Trustworthy In Silico Models Out: The Impact of Data Quality on the Reliability of Artificial Intelligence Models as Alternatives to Animal Testing
New Approach Methodologies (NAMs) that make use of synthetic intelligence (AI) for predicting adversarial results of chemical compounds have generated optimistic expectations as options to animal testing. However, the foremost underappreciated problem in growing strong and predictive AI fashions is the affect of the standard of the enter information on the mannequin accuracy. Indeed, poor information reproducibility and high quality have been incessantly cited as factors contributing to the disaster in biomedical analysis, in addition to comparable shortcomings within the fields of toxicology and chemistry.
In this text, we overview the newest efforts to enhance confidence within the robustness of toxicological information and examine the affect that information curation has on the arrogance in mannequin predictions. We additionally current two case research demonstrating the impact of information curation on the efficiency of AI fashions for predicting pores and skin sensitisation and pores and skin irritation.
ASAH2 Polyclonal Antibody |
A72338-050 |
EpiGentek |
50 ul |
EUR 302.5 |
ASAH2 Polyclonal Antibody |
A72338-100 |
EpiGentek |
100 ul |
EUR 423.5 |
ASAH2 Polyclonal Antibody |
A72339-050 |
EpiGentek |
50 ul |
EUR 302.5 |
ASAH2 Polyclonal Antibody |
A72339-100 |
EpiGentek |
100 ul |
EUR 423.5 |
ASAH2 Rabbit pAb |
A12596-100ul |
Abclonal |
100 ul |
EUR 369.6 |
ASAH2 Rabbit pAb |
A12596-200ul |
Abclonal |
200 ul |
EUR 550.8 |
ASAH2 Rabbit pAb |
A12596-20ul |
Abclonal |
20 ul |
EUR 219.6 |
ASAH2 Rabbit pAb |
A12596-50ul |
Abclonal |
50 ul |
EUR 267.6 |
ASAH2 Rabbit pAb |
A7985-100ul |
Abclonal |
100 ul |
EUR 369.6 |
ASAH2 Rabbit pAb |
A7985-200ul |
Abclonal |
200 ul |
EUR 550.8 |
ASAH2 Rabbit pAb |
A7985-20ul |
Abclonal |
20 ul |
EUR 219.6 |
ASAH2 Rabbit pAb |
A7985-50ul |
Abclonal |
50 ul |
EUR 267.6 |
ASAH2 antibody |
70R-12124 |
Fitzgerald |
100 ug |
EUR 483.6 |
Description: Rabbit polyclonal ASAH2 antibody |
ASAH2 Antibody |
4743-002mg |
ProSci |
0.02 mg |
EUR 206.18 |
|
Description: ASAH2 Antibody: Sphingolipids are hydrolyzed by ceramidases to yield sphingosine and fatty acids. These ceramidases are classified according to the pH range that supports their optimal activity. ASAH2 is a neutral ceramidase and key regulator of sphingolipid signaling metabolites at the cell surface, catalyzing the hydrolysis of the N-acyl linkage of ceramide at an optimal pH of 6.5-8.5. ASAH2 is a type II integral membrane protein that can be cleaved to yield a soluble secreted protein and acts as a repressor of apoptosis both by reducing C16-ceramide, thereby preventing ceramide-induced apoptosis, and generating sphingosine. Sphingosine exerts both mitogenic and apoptosis-inducing activities, and its phosphorylated form functions as an intra- and intercellular second messenger. ASAH2 is ubiquitously expressed primarily expressed with higher levels in the intestine, kidney, skeletal muscle and heart. Recent studies indicate that ASAH2 encoded neutral ceramidase is a key enzyme for the catabolism of dietary sphingolipids and regulates the levels of bioactive sphingolipid metabolites in the intestinal tract. |
ASAH2 Antibody |
4743-01mg |
ProSci |
0.1 mg |
EUR 523.7 |
|
Description: ASAH2 Antibody: Sphingolipids are hydrolyzed by ceramidases to yield sphingosine and fatty acids. These ceramidases are classified according to the pH range that supports their optimal activity. ASAH2 is a neutral ceramidase and key regulator of sphingolipid signaling metabolites at the cell surface, catalyzing the hydrolysis of the N-acyl linkage of ceramide at an optimal pH of 6.5-8.5. ASAH2 is a type II integral membrane protein that can be cleaved to yield a soluble secreted protein and acts as a repressor of apoptosis both by reducing C16-ceramide, thereby preventing ceramide-induced apoptosis, and generating sphingosine. Sphingosine exerts both mitogenic and apoptosis-inducing activities, and its phosphorylated form functions as an intra- and intercellular second messenger. ASAH2 is ubiquitously expressed primarily expressed with higher levels in the intestine, kidney, skeletal muscle and heart. Recent studies indicate that ASAH2 encoded neutral ceramidase is a key enzyme for the catabolism of dietary sphingolipids and regulates the levels of bioactive sphingolipid metabolites in the intestinal tract. |
ASAH2 Antibody |
36240-100ul |
SAB |
100ul |
EUR 302.4 |
ASAH2 Antibody |
24731-100ul |
SAB |
100ul |
EUR 468 |
ASAH2 Antibody |
1-CSB-PA002170EA01HU |
Cusabio |
|
|
|
Description: A polyclonal antibody against ASAH2. Recognizes ASAH2 from Human, Rat. This antibody is Unconjugated. Tested in the following application: ELISA, WB, IHC, IF; Recommended dilution: WB:1:500-1:5000, IHC:1:100-1:500, IF:1:50-1:500 |
ASAH2 Antibody |
1-CSB-PA076840 |
Cusabio |
|
|
|
Description: A polyclonal antibody against ASAH2. Recognizes ASAH2 from Human, Mouse, Rat. This antibody is Unconjugated. Tested in the following application: ELISA, WB, IHC;ELISA:1:1000-1:2000, WB:1:200-1:1000, IHC:1:25-1:100 |
ASAH2 Antibody |
1-CSB-PA133826 |
Cusabio |
|
|
|
Description: A polyclonal antibody against ASAH2. Recognizes ASAH2 from Human, Mouse, Rat. This antibody is Unconjugated. Tested in the following application: ELISA, WB, IHC;ELISA:1:1000-1:2000, WB:1:200-1:1000, IHC:1:25-1:100 |
ASAH2 Polyclonal Antibody, HRP Conjugated |
A62107-050 |
EpiGentek |
50 ul |
EUR 302.5 |
ASAH2 Polyclonal Antibody, HRP Conjugated |
A62107-100 |
EpiGentek |
100 ul |
EUR 423.5 |
ASAH2 Polyclonal Antibody, FITC Conjugated |
A62108-050 |
EpiGentek |
50 ul |
EUR 302.5 |
ASAH2 Polyclonal Antibody, FITC Conjugated |
A62108-100 |
EpiGentek |
100 ul |
EUR 423.5 |
ASAH2 Polyclonal Antibody, Biotin Conjugated |
A62109-050 |
EpiGentek |
50 ul |
EUR 302.5 |
ASAH2 Polyclonal Antibody, Biotin Conjugated |
A62109-100 |
EpiGentek |
100 ul |
EUR 423.5 |
ASAH2 Polyclonal Antibody, HRP Conjugated |
A62107 |
EpiGentek |
-
EUR 684.66
-
EUR 302.50
-
EUR 423.50
|
|
ASAH2 Polyclonal Antibody, FITC Conjugated |
A62108 |
EpiGentek |
-
EUR 684.66
-
EUR 302.50
-
EUR 423.50
|
|
ASAH2 Polyclonal Antibody, Biotin Conjugated |
A62109 |
EpiGentek |
-
EUR 684.66
-
EUR 302.50
-
EUR 423.50
|
|
ASAH2 Conjugated Antibody |
C36240 |
SAB |
100ul |
EUR 476.4 |
ASAH2 Peptide |
4743P |
ProSci |
0.05 mg |
EUR 197.7 |
Description: (CT) ASAH2 peptide |
ASAH2 siRNA |
20-abx900469 |
Abbexa |
|
|
|
ASAH2 siRNA |
20-abx908269 |
Abbexa |
|
|
|
ASAH2 siRNA |
20-abx908270 |
Abbexa |
|
|
|
ASAH2 Antibody, HRP conjugated |
1-CSB-PA002170EB01HU |
Cusabio |
|
|
|
Description: A polyclonal antibody against ASAH2. Recognizes ASAH2 from Human. This antibody is HRP conjugated. Tested in the following application: ELISA |
ASAH2 Antibody, FITC conjugated |
1-CSB-PA002170EC01HU |
Cusabio |
|
|
|
Description: A polyclonal antibody against ASAH2. Recognizes ASAH2 from Human. This antibody is FITC conjugated. Tested in the following application: ELISA |
ASAH2 Antibody, Biotin conjugated |
1-CSB-PA002170ED01HU |
Cusabio |
|
|
|
Description: A polyclonal antibody against ASAH2. Recognizes ASAH2 from Human. This antibody is Biotin conjugated. Tested in the following application: ELISA |
ASAH2 Blocking Peptide |
3828BP-50 |
Biovision |
|
EUR 183.6 |
ASAH2 Blocking Peptide |
33R-10941 |
Fitzgerald |
50 ug |
EUR 229.2 |
Description: A synthetic peptide for use as a blocking control in assays to test for specificity of ASAH2 antibody, catalog no. 70R-12124 |
ASAH2 cloning plasmid |
CSB-CL865115HU-10ug |
Cusabio |
10ug |
EUR 568.8 |
|
Description: A cloning plasmid for the ASAH2 gene. |
Human ASAH2 shRNA Plasmid |
20-abx961153 |
Abbexa |
|
|
|
Mouse ASAH2 shRNA Plasmid |
20-abx974501 |
Abbexa |
|
|
|
Rat ASAH2 shRNA Plasmid |
20-abx987160 |
Abbexa |
|
|
|
ASAH2 Recombinant Protein (Human) |
RP036760 |
ABM |
100 ug |
Ask for price |
ASAH2 Recombinant Protein (Rat) |
RP191108 |
ABM |
100 ug |
Ask for price |
ASAH2 Recombinant Protein (Mouse) |
RP117410 |
ABM |
100 ug |
Ask for price |
N-Acylsphingosine Amidohydrolase 2 (ASAH2) Antibody |
20-abx007107 |
Abbexa |
-
EUR 493.20
-
EUR 710.40
-
EUR 218.40
-
EUR 376.80
|
- 100 ul
- 200 ul
- 20 ul
- 50 ul
|
|
N-Acylsphingosine Amidohydrolase 2 (ASAH2) Antibody |
abx025039-400ul |
Abbexa |
400 ul |
EUR 627.6 |
|
N-Acylsphingosine Amidohydrolase 2 (ASAH2) Antibody |
abx025039-80l |
Abbexa |
80 µl |
EUR 343.2 |
|
N-Acylsphingosine Amidohydrolase 2 (ASAH2) Antibody |
20-abx303129 |
Abbexa |
-
EUR 493.20
-
EUR 2214.00
-
EUR 718.80
-
EUR 218.40
-
EUR 360.00
|
- 100 ug
- 1 mg
- 200 ug
- 20 ug
- 50 ug
|
|
N-Acylsphingosine Amidohydrolase 2 (ASAH2) Antibody |
20-abx214010 |
Abbexa |
|
|
|
N-Acylsphingosine Amidohydrolase 2 (ASAH2) Antibody |
20-abx214011 |
Abbexa |
|
|
|
N-Acylsphingosine Amidohydrolase 2 (ASAH2) Antibody |
20-abx173712 |
Abbexa |
|
|
|
N-Acylsphingosine Amidohydrolase 2 (ASAH2) Antibody |
20-abx177710 |
Abbexa |
|
|
|
N-Acylsphingosine Amidohydrolase 2 (ASAH2) Antibody (HRP) |
20-abx303130 |
Abbexa |
-
EUR 493.20
-
EUR 2214.00
-
EUR 718.80
-
EUR 218.40
-
EUR 360.00
|
- 100 ug
- 1 mg
- 200 ug
- 20 ug
- 50 ug
|
|
N-Acylsphingosine Amidohydrolase 2 (ASAH2) Antibody (FITC) |
20-abx303131 |
Abbexa |
-
EUR 493.20
-
EUR 2214.00
-
EUR 718.80
-
EUR 218.40
-
EUR 360.00
|
- 100 ug
- 1 mg
- 200 ug
- 20 ug
- 50 ug
|
|
N-Acylsphingosine Amidohydrolase 2 (ASAH2) Antibody (Biotin) |
20-abx303132 |
Abbexa |
-
EUR 493.20
-
EUR 2214.00
-
EUR 718.80
-
EUR 218.40
-
EUR 360.00
|
- 100 ug
- 1 mg
- 200 ug
- 20 ug
- 50 ug
|
|
ASAH2 ELISA Kit (Human) (OKCD01831) |
OKCD01831 |
Aviva Systems Biology |
96 Wells |
EUR 997.2 |
Description: Description of target: Hydrolyzes the sphingolipid ceramide into sphingosine and free fatty acid at an optimal pH of 6.5-8.5. Acts as a key regulator of sphingolipid signaling metabolites by generating sphingosine at the cell surface. Acts as a repressor of apoptosis both by reducing C16-ceramide, thereby preventing ceramide-induced apoptosis, and generating sphingosine, a precursor of the antiapoptotic factor sphingosine 1-phosphate. Probably involved in the digestion of dietary sphingolipids in intestine by acting as a key enzyme for the catabolism of dietary sphingolipids and regulating the levels of bioactive sphingolipid metabolites in the intestinal tract.;Species reactivity: Human;Application: ;Assay info: Assay Methodology: Quantitative Sandwich Immunoassay;Sensitivity: < 0.31 ng/mL |
Asah2 ORF Vector (Rat) (pORF) |
ORF063704 |
ABM |
1.0 ug DNA |
EUR 607.2 |
ASAH2 ORF Vector (Human) (pORF) |
ORF012254 |
ABM |
1.0 ug DNA |
EUR 424.8 |
Asah2 ORF Vector (Mouse) (pORF) |
ORF039138 |
ABM |
1.0 ug DNA |
EUR 607.2 |
Asah2 sgRNA CRISPR Lentivector set (Rat) |
K7087001 |
ABM |
3 x 1.0 ug |
EUR 406.8 |
ASAH2 sgRNA CRISPR Lentivector set (Human) |
K0130501 |
ABM |
3 x 1.0 ug |
EUR 406.8 |
Asah2 sgRNA CRISPR Lentivector set (Mouse) |
K3499601 |
ABM |
3 x 1.0 ug |
EUR 406.8 |
Human N-Acylsphingosine Amidohydrolase 2 (ASAH2) Protein |
20-abx654471 |
Abbexa |
-
EUR 693.60
-
EUR 309.60
-
EUR 2064.00
-
EUR 828.00
-
EUR 510.00
|
- 100 ug
- 10 ug
- 1 mg
- 200 ug
- 50 ug
|
|
Mouse ASAH2 (Neutral ceramidase) ELISA Kit (CUSTOM) |
ELI-34287m |
Lifescience Market |
96 Tests |
EUR 1038 |
Human ASAH2 (Neutral ceramidase) ELISA Kit (CUSTOM) |
ELI-34330h |
Lifescience Market |
96 Tests |
EUR 988.8 |
Rat ASAH2 (Neutral ceramidase) ELISA Kit (CUSTOM) |
ELI-48960r |
Lifescience Market |
96 Tests |
EUR 1063.2 |
Asah2 sgRNA CRISPR Lentivector (Rat) (Target 1) |
K7087002 |
ABM |
1.0 ug DNA |
EUR 184.8 |
Asah2 sgRNA CRISPR Lentivector (Rat) (Target 2) |
K7087003 |
ABM |
1.0 ug DNA |
EUR 184.8 |
Asah2 sgRNA CRISPR Lentivector (Rat) (Target 3) |
K7087004 |
ABM |
1.0 ug DNA |
EUR 184.8 |
ASAH2 sgRNA CRISPR Lentivector (Human) (Target 1) |
K0130502 |
ABM |
1.0 ug DNA |
EUR 184.8 |
ASAH2 sgRNA CRISPR Lentivector (Human) (Target 2) |
K0130503 |
ABM |
1.0 ug DNA |
EUR 184.8 |
ASAH2 sgRNA CRISPR Lentivector (Human) (Target 3) |
K0130504 |
ABM |
1.0 ug DNA |
EUR 184.8 |
Asah2 sgRNA CRISPR Lentivector (Mouse) (Target 1) |
K3499602 |
ABM |
1.0 ug DNA |
EUR 184.8 |
Asah2 sgRNA CRISPR Lentivector (Mouse) (Target 2) |
K3499603 |
ABM |
1.0 ug DNA |
EUR 184.8 |
Asah2 sgRNA CRISPR Lentivector (Mouse) (Target 3) |
K3499604 |
ABM |
1.0 ug DNA |
EUR 184.8 |
ASAH2 Protein Vector (Mouse) (pPB-C-His) |
PV156550 |
ABM |
500 ng |
EUR 1278 |
ASAH2 Protein Vector (Mouse) (pPB-N-His) |
PV156551 |
ABM |
500 ng |
EUR 1278 |
ASAH2 Protein Vector (Mouse) (pPM-C-HA) |
PV156552 |
ABM |
500 ng |
EUR 1278 |
ASAH2 Protein Vector (Mouse) (pPM-C-His) |
PV156553 |
ABM |
500 ng |
EUR 1278 |
ASAH2 Protein Vector (Human) (pPB-C-His) |
PV049013 |
ABM |
500 ng |
EUR 577.2 |
ASAH2 Protein Vector (Human) (pPB-N-His) |
PV049014 |
ABM |
500 ng |
EUR 577.2 |
ASAH2 Protein Vector (Human) (pPM-C-HA) |
PV049015 |
ABM |
500 ng |
EUR 577.2 |
ASAH2 Protein Vector (Human) (pPM-C-His) |
PV049016 |
ABM |
500 ng |
EUR 394.8 |
ASAH2 3'UTR Luciferase Stable Cell Line |
TU001220 |
ABM |
1.0 ml |
EUR 1825.2 |
Asah2 3'UTR Luciferase Stable Cell Line |
TU102183 |
ABM |
1.0 ml |
Ask for price |
ASAH2 3'UTR GFP Stable Cell Line |
TU051220 |
ABM |
1.0 ml |
EUR 1825.2 |
Asah2 3'UTR Luciferase Stable Cell Line |
TU200951 |
ABM |
1.0 ml |
Ask for price |
Asah2 3'UTR GFP Stable Cell Line |
TU250951 |
ABM |
1.0 ml |
Ask for price |
Asah2 3'UTR GFP Stable Cell Line |
TU152183 |
ABM |
1.0 ml |
Ask for price |
ASAH2 Protein Vector (Human) (pPB-His-MBP) |
PV324138 |
ABM |
500 ng |
EUR 577.2 |
ASAH2 Protein Vector (Human) (pPB-His-GST) |
PV324139 |
ABM |
500 ng |
EUR 577.2 |
ASAH2 Protein Vector (Rat) (pPB-C-His) |
PV254814 |
ABM |
500 ng |
EUR 1399.2 |
ASAH2 Protein Vector (Rat) (pPB-N-His) |
PV254815 |
ABM |
500 ng |
EUR 1399.2 |
ASAH2 Protein Vector (Rat) (pPM-C-HA) |
PV254816 |
ABM |
500 ng |
EUR 1399.2 |
ASAH2 Protein Vector (Rat) (pPM-C-His) |
PV254817 |
ABM |
500 ng |
EUR 1399.2 |
GAPDH Rabbit Polyclonal Antibody |
A01021-005ml |
Abbkine |
0.05ml |
EUR 176.4 |
|
Description: A polyclonal antibody for detection of GAPDH from Human, Mouse, Rat, Rabbit, Chicken, Monkey, Sheep, Xneous. This GAPDH antibody is for WB, IHC-P. It is affinity-purified from rabbit antiserum by affinity-chromatography using the specific immunogenand is unconjugated. The antibody is produced in rabbit by using as an immunogen recombinant protein |
GAPDH Rabbit Polyclonal Antibody |
A01021-02ml |
Abbkine |
0.2ml |
EUR 398.4 |
|
Description: A polyclonal antibody for detection of GAPDH from Human, Mouse, Rat, Rabbit, Chicken, Monkey, Sheep, Xneous. This GAPDH antibody is for WB, IHC-P. It is affinity-purified from rabbit antiserum by affinity-chromatography using the specific immunogenand is unconjugated. The antibody is produced in rabbit by using as an immunogen recombinant protein |
GAPDH Rabbit Polyclonal Antibody |
A01021-02ml5 |
Abbkine |
0.2ml×5 |
EUR 1104 |
|
Description: A polyclonal antibody for detection of GAPDH from Human, Mouse, Rat, Rabbit, Chicken, Monkey, Sheep, Xneous. This GAPDH antibody is for WB, IHC-P. It is affinity-purified from rabbit antiserum by affinity-chromatography using the specific immunogenand is unconjugated. The antibody is produced in rabbit by using as an immunogen recombinant protein |
Vimentin Rabbit Polyclonal Antibody |
38104-100ul |
SAB |
100ul |
EUR 302.4 |
We present that, whereas fashions generated with uncurated information had a 7-24% greater appropriate classification fee (CCR), the perceived efficiency was, the truth is, inflated owing to the excessive quantity of duplicates within the coaching set. We assert that information curation is a important step in constructing computational fashions, to assist be certain that dependable predictions of chemical toxicity are achieved by way of use of the fashions.