SNURF (RNF4, E3 Ubiquitin-protein Ligase RNF4, RING Finger Protein 4, Small Nuclear Ring Finger Protein, RES4-26)
-
Catalog numberMBS644849
-
PricePlease ask
-
Size5x0.05 mg
-
-
Products_typeAntibody
-
Products_short_name[SNURF]
-
Products_name_syn[Anti -SNURF (RNF4, E3 Ubiquitin-protein Ligase RNF4, RING Finger Protein 4, Small Nuclear Ring Finger Protein, RES4-26)]
-
Other_names[SNRPN upstream reading frame protein; SNRPN upstream reading frame protein; SNRPN upstream reading frame protein; SNRPN upstream reading frame]
-
Other_gene_names[SNURF; SNURF]
-
ClonalityPolyclonal
-
ReactivityHuman
-
SpecificityRecognizes human SNURF.
-
PurityAffinity Purified Purified by Protein A affinity chromatography.
-
FormSupplied as a liquid in PBS, pH 7.2.
-
Storage_stabilityMay be stored at 4 degree C for short-term only. Aliquot to avoid repeated freezing and thawing. Store at -20 degree C. Aliquots are stable for 12 months. For maximum recovery of product, centrifuge the original vial after thawing and prior to removing the cap.
-
Tested_applicationWestern Blot (WB), Immunofluorescence (IF)
-
DescriptionFinger like and finger proteins are like zinc fingers small proteins with a structural motif that is characterized by the coordination of one or more zinc ions in order to stabilize the fold. Homeobox and homeodomain families.
-
Gene target
-
Gene symbolRNF4, SNURF, SNORD116-26, SNORD114-26, SNORD115-26, RNVU1-26, ERVW-26, IGKV2D-26, ERVK-26, IGHV2-26
-
Short nameSNURF (RNF4, E3 Ubiquitin-protein Ligase RNF4, RING Finger Protein 4, Ring Finger Protein, RES4-26)
-
HostMouse
-
IsotypeIgG
-
Alternative nameSNURF (RNF4, E3 Ubiquitin-protein Ligase RNF4, RING Finger Protein 4, Small Nuclear Ring Finger Protein, RES4-26)
-
Gene info
-
Identity
-
Gene
-
Long gene namering finger protein 4
-
Synonyms
-
GenBank acession
-
Locus
-
Discovery year1997-07-01
-
Entrez gene record
-
Pubmed identfication
-
RefSeq identity
-
Classification
- Ring finger proteins
-
VEGA ID
Gene info
-
Identity
-
Gene
-
Long gene nameSNRPN upstream open reading frame
-
Synonyms gene name
- SNRPN upstream reading frame
-
Locus
-
Discovery year1999-01-07
-
Entrez gene record
-
Pubmed identfication
-
RefSeq identity
-
VEGA ID
Gene info
-
Identity
-
Gene
-
Long gene namesmall nucleolar RNA, C/D box 116-26
-
Synonyms
-
GenBank acession
-
Locus
-
Discovery year2007-02-15
-
Entrez gene record
-
Pubmed identfication
-
RefSeq identity
-
Classification
- Small nucleolar RNAs, C/D box
Gene info
-
Identity
-
Gene
-
Long gene namesmall nucleolar RNA, C/D box 114-26
-
Synonyms
-
Locus
-
Discovery year2006-09-26
-
Entrez gene record
-
Pubmed identfication
-
RefSeq identity
-
Classification
- Small nucleolar RNAs, C/D box
Gene info
-
Identity
-
Gene
-
Long gene namesmall nucleolar RNA, C/D box 115-26
-
Synonyms
-
GenBank acession
-
Locus
-
Discovery year2007-02-15
-
Entrez gene record
-
Pubmed identfication
-
RefSeq identity
-
Classification
- Small nucleolar RNAs, C/D box
Gene info
-
Identity
-
Gene
-
Long gene nameRNA, variant U1 small nuclear 26
-
Locus
-
Discovery year2019-07-26
-
Classification
- Variant U1 small nuclear RNAs
Gene info
-
Identity
-
Gene
-
Long gene nameendogenous retrovirus group W member 26
-
Synonyms gene name
- endogenous retrovirus group W, member 26
-
GenBank acession
-
Locus
-
Discovery year2013-10-21
Gene info
-
Identity
-
Gene
-
Long gene nameimmunoglobulin kappa variable 2D-26
-
GenBank acession
-
Locus
-
Discovery year2000-04-18
-
Entrez gene record
-
RefSeq identity
-
Classification
- Immunoglobulin kappa locus at 2p11.2
-
VEGA ID
Gene info
-
Identity
-
Gene
-
Long gene nameendogenous retrovirus group K member 26
-
Synonyms gene name
- endogenous retrovirus group K, member 26
-
GenBank acession
-
Locus
-
Discovery year2014-01-03
-
Pubmed identfication
Gene info
-
Identity
-
Gene
-
Long gene nameimmunoglobulin heavy variable 2-26
-
GenBank acession
-
Locus
-
Discovery year2000-04-04
-
Entrez gene record
-
RefSeq identity
-
Classification
- Immunoglobulin heavy locus at 14q32.33
-
VEGA ID
MeSH Data
-
Name
-
ConceptScope note: A DNA amplification technique based upon the ligation of OLIGONUCLEOTIDE PROBES. The probes are designed to exactly match two adjacent sequences of a specific target DNA. The chain reaction is repeated in three steps in the presence of excess probe: (1) heat denaturation of double-stranded DNA, (2) annealing of probes to target DNA, and (3) joining of the probes by thermostable DNA ligase. After the reaction is repeated for 20-30 cycles the production of ligated probe is measured.
-
Tree numbers
- E05.393.620.311
-
Qualifiersethics, trends, veterinary, history, classification, economics, instrumentation, methods, standards, statistics & numerical data