Description:

Size: 100ul

Catalog no.: bs-11245R-A555

Price: 380 EUR

Product details

Modification Site

None

Target Antigen

CACNA1F

French translation

anticorps

Tested applications

IF(IHC-P)

Clonality

Polyclonal

Modification

Unmodified

Excitation emission

553nm/568nm

Concentration

1ug per 1ul

Subcellular location

Extracellular

Conjugated with

ALEXA FLUOR® 555

Crossreactivity

Human, Mouse, Rat

Recommended dilutions

IF(IHC-P)(1:50-200)

Clone

Polyclonal antibody

Purification

Purified by Protein A.

Conjugation

Alexa Fluor,ALEXA FLUOR 555

Category

Conjugated Primary Antibodies

Host Organism

Rabbit (Oryctolagus cuniculus)

Also known as

Anti-CACNA1F PAb ALEXA FLUOR 555

Specificity

This is a highly specific antibody against CACNA1F.

Long name

CACNA1F Polyclonal Antibody, ALEXA FLUOR 555 Conjugated

Cross-reactive species details

Due to limited amount of testing and knowledge, not every possible cross-reactivity is known.

Source

This antibody was obtained by immunization of the host with KLH conjugated synthetic peptide derived from human CACNA1F

Storage conditions

Store this antibody in aqueous buffered solution containing 1% BSA, 50% glycerol and 0.09% sodium azide. Keep refrigerated at 2 to 8 degrees Celcius for up to one year.

Properties

For facs or microscopy Alexa 1 conjugate.Very high photo stable ALEXA conjugate.If you buy Antibodies supplied by Bioss Primary Conjugated Antibodies. ALEXA FLUOR they should be stored frozen at - 24°C for long term storage and for short term at + 5°C.

Synonyms

CACNA 1F; CACNAF; CACNAF1; Calcium channel voltage dependent alpha 1F subunit; Calcium channel voltage dependent L type alpha 1F subunit; Cav1.4; Cav1.4alpha1; COD 3; COD3; CORDX 3; CORDX; CORDX3; CSNB2A; CSNBX 2; CSNBX2; JM 8; JM8; JMC 8; JMC8; Voltage ated calcium channel subunit alpha Cav1.4; Voltage ependent L ype calcium channel subunit alpha F; CAC1F_HUMAN.

Background of the antigen

Voltage-dependent Ca2+ channels mediate Ca2+ entry into excitable cells in response to membrane depolarization, and they are involved in a variety of Ca2+-dependent processes, including muscle contraction, hormone or neurotransmitter release and gene expression.Ca2+ currents are characterized on the basis of their biophysical and pharmacologic properties and include L-, N-, T-, P-, Q-, and R- types. L-type Ca2+ currents initiate muscle contraction, endocrine secretion, and gene transcription, and can be regulated through second-messenger activated protein phosphorylation pathways. L-type calcium channels may form macromolecular signaling complexes with G protein-coupled receptors, thereby enhancing the selectivity of regulating specific targets.