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Providers / Bioss Polyclonal Antibodies / Anti-Sumo 2+3 (Polyclonal), ALEXA Fluor 594

Description:

Size: 100 microliters

Catalog no.: GENTObs-7338R-A594

Price: 489 EUR

Get for 489 EUR on Gentaur.com

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Product details

Subcellular locations

N/A

Gene ID

N/A

Swiss Prot

N/A

Modification site

None

Target Protein/Peptide

Sumo 2+3

Applications

IF(IHC-P)

Excitation emission

590nm/617nm

Concentration

1ug per 1ul

Conjugated

Alexa conjugate 1

Conjugated with

ALEXA FLUOR® 594

Applications with corresponding dilutions

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

Clonality

Polyclonal Antibody

Clone

Polyclonal Antibodies

Purification method

Purified by Protein A.

Other name

Anti-Sumo 2+3 Polyclonal

Group

Polyclonals and antibodies

Type

Conjugated Primary Antibody

Also known as

Sumo 2+3 Polyclonal Antibody

Conjugation

Alexa Fluor,ALEXA FLUOR® 594

Host organism

Rabbit (Oryctolagus cuniculus)

Properties

For facs or microscopy Alexa 1 conjugate.

Specificity

This antibody reacts specifically with Sumo 2+3

Modification

No modification has been applied to this antibody

Antigen Source

KLH conjugated synthetic peptide derived from human Sumo 2+3

Cross reactive species

Human (Homo sapiens), Mouse (Mus musculus), Rat (Rattus norvegicus)

Storage

Water buffered solution containing 100ug/ml BSA, 50% glycerol and 0.09% sodium azide. Store at 4°C for 12 months.

Description

This antibody needs to be stored at + 4°C in a fridge short term in a concentrated dilution. Freeze thaw will destroy a percentage in every cycle and should be avoided.

About

Polyclonals can be used for Western blot, immunohistochemistry on frozen slices or parrafin fixed tissues. The advantage is that there are more epitopes available in a polyclonal antiserum to detect the proteins than in monoclonal sera.

Cross Reactive Species details

No significant cross reactivity has been observed for this antibody for the tested species. However, note that due to limited knowledge it is impossible to predict with 100% guarantee that the antibody does not corss react with any other species.

Advisory

Avoid freeze/thaw cycles as they may denaturate the polypeptide chains of the antibody, thus reducing its reactivity, specificity and sensitivity. For antibodies that are in liquid form or reconstituted lyophilized antibodies small amounts could become entrapped on the seal or the walls of the tube. Prior to use briefly centrifuge the vial to gather all the solution on the bottom.

Synonyms

HSMT3; MGC117191; OTTHUMP00000115275; OTTHUMP00000115276; OTTHUMP00000115277; Sentrin 2; Small ubiquitin like modier 2; Small ubiquitin like modier protein 3; Small ubiquitin related modier 2; Small ubiquitin related modier 3; SMT3 A; SMT3 B; SMT3 H1; SMT3 H2; SMT3 homolog 1; SMT3 homolog 2; SMT3 homolog; SMT3 suppressor of m two 3 homolog 1; SMT3 suppressor of m two 3 homolog 2 S. cerevisiae; SMT3 suppressor of m two 3 homolog 2; SMT3 suppressor of m two 3 homolog 3 S. cerevisiae; SMT3 suppressor of m two 3 homolog 3; SMT3A; SMT3B; SMT3H1; SMT3H2; Sumo 2; Sumo 3; Sumo2; Sumo3; Suppressor of m two 3 homolog 2; Suppressor of m two 3 homolog 3; Ubiquitin like protein SMT3A; Ubiquitin like protein SMT3B; SUMO2_HUMAN; SUMO3_HUMAN.

Background information

The small ubiquitin-related modifier (SUMO) proteins, which include SUMO-1, SUMO-2 and SUMO-3, belong to the ubiquitin-like protein family. Like ubiquitin, the SUMO proteins are synthesized as precursor proteins that undergo processing before conjugation to target proteins. Also, both utilize the E1, E2, and E3 cascade enzymes for conjugation. However, SUMO and ubiquitin differ with respect to targeting. Ubiquitination predominantly targets proteins for degradation, whereas sumoylation targets proteins to a variety of cellular processing, including nuclear transport, transcriptional regulation, apoptosis and protein stability. The unconjugated SUMO-1, SUMO-2 and SUMO-3 proteins localize to the nuclear membrane, nuclear bodies and cytoplasm, respectively. SUMO-1 utilizes Ubc9 for conjugation to several target proteins, which include IkBa, MDM2, p53, PML and Ran GAP1. SUMO-2 and SUMO-3 contribute to a greater percentage of protein modification than does SUMO-1, and unlike SUMO-1, they can form polymeric chains. In addition, SUMO-3 regulates b-Amyloid generation and may be critical in the onset or progression of Alzheimer’s disease.