Description
IFTLD1 Antibody | 6447 | Gentaur UK, US & Europe Distribution
Host: Rabbit
Reactivity: Human, Mouse, Rat
Homology: N/A
Immunogen: IFLTD1 antibody was raised against an 19 amino acid synthetic peptide near the center of human IFLTD1.
The immunogen is located within amino acids 200 - 250 of IFTLD1.
Research Area: Cancer, Cell Cycle
Tested Application: E, WB, IHC-P
Application: IFLTD1 antibody can be used for detection of IFLTD1 by Western blot at 1 - 2 μg/mL. Antibody can also be used for immunohistochemistry starting at 5 μg/mL.
Antibody validated: Western Blot in rat samples and Immunohistochemistry in rat samples. All other applications and species not yet tested.
Specificiy: At least four isoforms of IFLTD1 are known to exist; this antibody will detect all but isoform 4
Positive Control 1: Cat. No. 1462 - Rat Lung Tissue Lysate
Positive Control 2: N/A
Positive Control 3: N/A
Positive Control 4: N/A
Positive Control 5: N/A
Positive Control 6: N/A
Molecular Weight: N/A
Validation: N/A
Isoform: N/A
Purification: IFTLD1 Antibody is affinity chromatography purified via peptide column.
Clonality: Polyclonal
Clone: N/A
Isotype: IgG
Conjugate: Unconjugated
Physical State: Liquid
Buffer: IFTLD1 Antibody is supplied in PBS containing 0.02% sodium azide.
Concentration: 1 mg/mL
Storage Condition: IFTLD1 antibody can be stored at 4˚C for three months and -20˚C, stable for up to one year. As with all antibodies care should be taken to avoid repeated freeze thaw cycles. Antibodies should not be exposed to prolonged high temperatures.
Alternate Name: IFTLD1 Antibody: PAS1C1, Intermediate filament tail domain-containing protein 1
User Note: Optimal dilutions for each application to be determined by the researcher.
BACKGROUND: IFTLD1 Antibody: The intermediate filament tail domain-containing protein (IFLTD1) was initially identified as a candidate gene for pulmonary adenoma susceptibility 1 gene in mice. Transcripts of the gene were only detected in mouse lung tissue from strains carrying the Pas1-susceptible allele. Expression of different alleles of this gene in lung cancer cell lines resulted in different levels of colony formation in in vitro colony formation assays, suggesting that allelic variants of this gene can modulate growth of human cancer cells.