Product: RanBP2 Antibody
Catalog: DF13351
Description: Rabbit polyclonal antibody to RanBP2
Application: WB IF/ICC
Reactivity: Human, Mouse, Rat
Prediction: Pig, Bovine, Horse, Sheep, Rabbit, Dog
Mol.Wt.: 358kDa; 358kD(Calculated).
Uniprot: P49792
RRID: AB_2846370

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Product Info

Source:
Rabbit
Application:
WB 1:500-1:2000, IF/ICC 1:100-1:500
*The optimal dilutions should be determined by the end user.
*Tips:

WB: For western blot detection of denatured protein samples. IHC: For immunohistochemical detection of paraffin sections (IHC-p) or frozen sections (IHC-f) of tissue samples. IF/ICC: For immunofluorescence detection of cell samples. ELISA(peptide): For ELISA detection of antigenic peptide.

Reactivity:
Human,Mouse,Rat
Prediction:
Pig(88%), Bovine(88%), Horse(88%), Sheep(88%), Rabbit(88%), Dog(88%)
Clonality:
Polyclonal
Specificity:
RanBP2 Antibody detects endogenous levels of total RanBP2.
RRID:
AB_2846370
Cite Format: Affinity Biosciences Cat# DF13351, RRID:AB_2846370.
Conjugate:
Unconjugated.
Purification:
The antiserum was purified by peptide affinity chromatography using SulfoLink™ Coupling Resin (Thermo Fisher Scientific).
Storage:
Rabbit IgG in phosphate buffered saline , pH 7.4, 150mM NaCl, 0.02% sodium azide and 50% glycerol. Store at -20 °C. Stable for 12 months from date of receipt.
Alias:

Fold/Unfold

358 kDa nucleoporin; ANE1; E3 SUMO-protein ligase RanBP2; IIAE3; Nuclear pore complex protein Nup358; Nucleoporin 358; Nucleoporin Nup358; NUP358; p270; RAN binding protein 2; Ran-binding protein 2; RANBP2; RBP2_HUMAN; Transformation related protein 2; TRP 1; TRP 2; TRP1; TRP2;

Immunogens

Immunogen:
Uniprot:
Gene(ID):
Sequence:
MRRSKADVERYIASVQGSTPSPRQKSMKGFYFAKLYYEAKEYDLAKKYICTYINVQERDPKAHRFLGLLYELEENTDKAVECYRRSVELNPTQKDLVLKIAELLCKNDVTDGRAKYWLERAAKLFPGSPAIYKLKEQLLDCEGEDGWNKLFDLIQSELYVRPDDVHVNIRLVEVYRSTKRLKDAVAHCHEAERNIALRSSLEWNSCVVQTLKEYLESLQCLESDKSDWRATNTDLLLAYANLMLLTLSTRDVQESRELLQSFDSALQSVKSLGGNDELSATFLEMKGHFYMHAGSLLLKMGQHSSNVQWRALSELAALCYLIAFQVPRPKIKLIKGEAGQNLLEMMACDRLSQSGHMLLNLSRGKQDFLKEIVETFANKSGQSALYDALFSSQSPKDTSFLGSDDIGNIDVREPELEDLTRYDVGAIRAHNGSLQHLTWLGLQWNSLPALPGIRKWLKQLFHHLPHETSRLETNAPESICILDLEVFLLGVVYTSHLQLKEKCNSHHSSYQPLCLPLPVCKQLCTERQKSWWDAVCTLIHRKAVPGNVAKLRLLVQHEINTLRAQEKHGLQPALLVHWAECLQKTGSGLNSFYDQREYIGRSVHYWKKVLPLLKIIKKKNSIPEPIDPLFKHFHSVDIQASEIVEYEEDAHITFAILDAVNGNIEDAVTAFESIKSVVSYWNLALIFHRKAEDIENDALSPEEQEECKNYLRKTRDYLIKIIDDSDSNLSVVKKLPVPLESVKEMLNSVMQELEDYSEGGPLYKNGSLRNADSEIKHSTPSPTRYSLSPSKSYKYSPKTPPRWAEDQNSLLKMICQQVEAIKKEMQELKLNSSNSASPHRWPTENYGPDSVPDGYQGSQTFHGAPLTVATTGPSVYYSQSPAYNSQYLLRPAANVTPTKGPVYGMNRLPPQQHIYAYPQQMHTPPVQSSSACMFSQEMYGPPALRFESPATGILSPRGDDYFNYNVQQTSTNPPLPEPGYFTKPPIAAHASRSAESKTIEFGKTNFVQPMPGEGLRPSLPTQAHTTQPTPFKFNSNFKSNDGDFTFSSPQVVTQPPPAAYSNSESLLGLLTSDKPLQGDGYSGAKPIPGGQTIGPRNTFNFGSKNVSGISFTENMGSSQQKNSGFRRSDDMFTFHGPGKSVFGTPTLETANKNHETDGGSAHGDDDDDGPHFEPVVPLPDKIEVKTGEEDEEEFFCNRAKLFRFDVESKEWKERGIGNVKILRHKTSGKIRLLMRREQVLKICANHYISPDMKLTPNAGSDRSFVWHALDYADELPKPEQLAIRFKTPEEAALFKCKFEEAQSILKAPGTNVAMASNQAVRIVKEPTSHDNKDICKSDAGNLNFEFQVAKKEGSWWHCNSCSLKNASTAKKCVSCQNLNPSNKELVGPPLAETVFTPKTSPENVQDRFALVTPKKEGHWDCSICLVRNEPTVSRCIACQNTKSANKSGSSFVHQASFKFGQGDLPKPINSDFRSVFSTKEGQWDCSACLVQNEGSSTKCAACQNPRKQSLPATSIPTPASFKFGTSETSKTLKSGFEDMFAKKEGQWDCSSCLVRNEANATRCVACQNPDKPSPSTSVPAPASFKFGTSETSKAPKSGFEGMFTKKEGQWDCSVCLVRNEASATKCIACQNPGKQNQTTSAVSTPASSETSKAPKSGFEGMFTKKEGQWDCSVCLVRNEASATKCIACQNPGKQNQTTSAVSTPASSETSKAPKSGFEGMFTKKEGQWDCSVCLVRNEASATKCIACQCPSKQNQTTAISTPASSEISKAPKSGFEGMFIRKGQWDCSVCCVQNESSSLKCVACDASKPTHKPIAEAPSAFTLGSEMKLHDSSGSQVGTGFKSNFSEKASKFGNTEQGFKFGHVDQENSPSFMFQGSSNTEFKSTKEGFSIPVSADGFKFGISEPGNQEKKSEKPLENGTGFQAQDISGQKNGRGVIFGQTSSTFTFADLAKSTSGEGFQFGKKDPNFKGFSGAGEKLFSSQYGKMANKANTSGDFEKDDDAYKTEDSDDIHFEPVVQMPEKVELVTGEEDEKVLYSQRVKLFRFDAEVSQWKERGLGNLKILKNEVNGKLRMLMRREQVLKVCANHWITTTMNLKPLSGSDRAWMWLASDFSDGDAKLEQLAAKFKTPELAEEFKQKFEECQRLLLDIPLQTPHKLVDTGRAAKLIQRAEEMKSGLKDFKTFLTNDQTKVTEEENKGSGTGAAGASDTTIKPNPENTGPTLEWDNYDLREDALDDSVSSSSVHASPLASSPVRKNLFRFGESTTGFNFSFKSALSPSKSPAKLNQSGTSVGTDEESDVTQEEERDGQYFEPVVPLPDLVEVSSGEENEQVVFSHRAKLYRYDKDVGQWKERGIGDIKILQNYDNKQVRIVMRRDQVLKLCANHRITPDMTLQNMKGTERVWLWTACDFADGERKVEHLAVRFKLQDVADSFKKIFDEAKTAQEKDSLITPHVSRSSTPRESPCGKIAVAVLEETTRERTDVIQGDDVADATSEVEVSSTSETTPKAVVSPPKFVFGSESVKSIFSSEKSKPFAFGNSSATGSLFGFSFNAPLKSNNSETSSVAQSGSESKVEPKKCELSKNSDIEQSSDSKVKNLFASFPTEESSINYTFKTPEKAKEKKKPEDSPSDDDVLIVYELTPTAEQKALATKLKLPPTFFCYKNRPDYVSEEEEDDEDFETAVKKLNGKLYLDGSEKCRPLEENTADNEKECIIVWEKKPTVEEKAKADTLKLPPTFFCGVCSDTDEDNGNGEDFQSELQKVQEAQKSQTEEITSTTDSVYTGGTEVMVPSFCKSEEPDSITKSISSPSVSSETMDKPVDLSTRKEIDTDSTSQGESKIVSFGFGSSTGLSFADLASSNSGDFAFGSKDKNFQWANTGAAVFGTQSVGTQSAGKVGEDEDGSDEEVVHNEDIHFEPIVSLPEVEVKSGEEDEEILFKERAKLYRWDRDVSQWKERGVGDIKILWHTMKNYYRILMRRDQVFKVCANHVITKTMELKPLNVSNNALVWTASDYADGEAKVEQLAVRFKTKEVADCFKKTFEECQQNLMKLQKGHVSLAAELSKETNPVVFFDVCADGEPLGRITMELFSNIVPRTAENFRALCTGEKGFGFKNSIFHRVIPDFVCQGGDITKHDGTGGQSIYGDKFEDENFDVKHTGPGLLSMANQGQNTNNSQFVITLKKAEHLDFKHVVFGFVKDGMDTVKKIESFGSPKGSVCRRITITECGQI

Predictions

Predictions:

Score>80(red) has high confidence and is suggested to be used for WB detection. *The prediction model is mainly based on the alignment of immunogen sequences, the results are for reference only, not as the basis of quality assurance.

Species
Results
Score
Pig
88
Horse
88
Bovine
88
Sheep
88
Dog
88
Rabbit
88
Xenopus
0
Zebrafish
0
Chicken
0
Model Confidence:
High(score>80) Medium(80>score>50) Low(score<50) No confidence

PTMs - P49792 As Substrate

Site PTM Type Enzyme
Y11 Phosphorylation
S14 Phosphorylation
S18 Phosphorylation
T19 Phosphorylation
S21 Phosphorylation
S26 Phosphorylation
K28 Ubiquitination
K34 Ubiquitination
Y36 Phosphorylation
K40 Ubiquitination
Y42 Phosphorylation
Y70 Phosphorylation
K78 Ubiquitination
S86 Phosphorylation
T92 Phosphorylation
K94 Ubiquitination
K99 Ubiquitination
K106 Ubiquitination
K115 Acetylation
K115 Ubiquitination
K123 Acetylation
K123 Ubiquitination
S128 Phosphorylation
K133 Ubiquitination
K135 Ubiquitination
K182 Ubiquitination
S199 Phosphorylation
S200 Phosphorylation
S205 Phosphorylation
S304 Phosphorylation
S313 Phosphorylation
K335 Ubiquitination
S352 Phosphorylation
S354 Phosphorylation
S362 Phosphorylation
K365 Ubiquitination
K370 Ubiquitination
T375 Phosphorylation
K379 Ubiquitination
S380 Phosphorylation
Y386 Phosphorylation
S391 Phosphorylation
S392 Phosphorylation
S394 Phosphorylation
T398 Phosphorylation
S399 Phosphorylation
S403 Phosphorylation
K542 Ubiquitination
K550 Ubiquitination
Y593 Phosphorylation
R596 Methylation
Y598 Phosphorylation
Y605 Phosphorylation
K607 Ubiquitination
K608 Ubiquitination
K614 Ubiquitination
K619 Ubiquitination
S700 Phosphorylation
K708 Ubiquitination
S725 Phosphorylation
S727 Phosphorylation
S730 Phosphorylation
Y756 Phosphorylation
S757 Phosphorylation
Y763 Phosphorylation
K764 Ubiquitination
S767 Phosphorylation
S773 Phosphorylation
K776 Ubiquitination
S778 Phosphorylation
T779 Phosphorylation
S781 Phosphorylation
T783 Phosphorylation
Y785 Phosphorylation
S786 Phosphorylation
S788 Phosphorylation
S790 Phosphorylation
K791 Ubiquitination
S792 Phosphorylation
Y793 Phosphorylation
Y795 Phosphorylation
S796 Phosphorylation
K798 Ubiquitination
T799 Phosphorylation
S809 Phosphorylation
K823 Ubiquitination
K829 Ubiquitination
S837 Phosphorylation
R890 Methylation
T896 Phosphorylation
T898 Phosphorylation
Y903 Phosphorylation
Y915 Phosphorylation
T923 Phosphorylation
R945 Methylation
S948 Phosphorylation
T951 Phosphorylation
S955 Phosphorylation
Y961 Phosphorylation
Y980 Phosphorylation
K983 Ubiquitination
K997 Ubiquitination
T998 Phosphorylation
R1016 Methylation
S1018 Phosphorylation
T1029 Phosphorylation
K1032 Methylation
K1038 Methylation
S1082 Phosphorylation
R1096 Methylation
T1098 Phosphorylation O14757 (CHEK1)
S1103 Phosphorylation
S1107 Phosphorylation
S1110 Phosphorylation
S1118 Phosphorylation
S1128 Phosphorylation
S1140 Phosphorylation
T1144 Phosphorylation
T1146 Phosphorylation
T1149 Phosphorylation
T1156 Phosphorylation
S1160 Phosphorylation
C1196 S-Nitrosylation
S1208 Phosphorylation
K1220 Acetylation
K1220 Ubiquitination
T1226 Phosphorylation
Y1247 Phosphorylation
S1249 Phosphorylation
T1255 Phosphorylation
S1263 Phosphorylation
Y1271 Phosphorylation
K1286 Ubiquitination
T1310 Phosphorylation
S1316 Phosphorylation
C1335 S-Nitrosylation
K1350 Sumoylation
S1354 Phosphorylation
S1360 Phosphorylation
S1362 Phosphorylation
S1374 Phosphorylation
T1393 Phosphorylation
T1396 Phosphorylation
K1398 Ubiquitination
T1399 O-Glycosylation
T1399 Phosphorylation
S1400 O-Glycosylation
S1400 Phosphorylation
R1407 Methylation
T1412 Phosphorylation
K1414 Sumoylation
S1422 Phosphorylation
S1443 Phosphorylation
K1446 Ubiquitination
S1447 Phosphorylation
S1449 Phosphorylation
S1450 Phosphorylation
S1456 Phosphorylation
K1458 Methylation
S1477 Phosphorylation
K1479 Ubiquitination
S1486 Phosphorylation
S1495 Phosphorylation
S1509 Phosphorylation
T1513 Phosphorylation
S1514 Phosphorylation
T1517 Phosphorylation
S1520 Phosphorylation
S1526 Phosphorylation
S1529 Phosphorylation
K1530 Ubiquitination
T1531 Phosphorylation
K1533 Sumoylation
K1533 Ubiquitination
S1534 Phosphorylation
S1573 Phosphorylation
T1576 Phosphorylation
S1583 Phosphorylation
K1585 Methylation
K1596 Sumoylation
S1597 Phosphorylation
K1605 Sumoylation
S1613 Phosphorylation
T1638 Phosphorylation
S1640 Phosphorylation
S1643 Phosphorylation
T1644 Phosphorylation
S1647 Phosphorylation
S1648 Phosphorylation
K1655 Sumoylation
S1656 Phosphorylation
K1664 Sumoylation
S1672 Phosphorylation
T1697 Phosphorylation
S1699 Phosphorylation
S1702 Phosphorylation
T1703 Phosphorylation
S1706 Phosphorylation
S1707 Phosphorylation
K1714 Sumoylation
S1715 Phosphorylation
K1723 Sumoylation
S1731 Phosphorylation
T1756 Phosphorylation
S1760 Phosphorylation
T1761 Phosphorylation
S1764 Phosphorylation
S1765 Phosphorylation
S1768 Phosphorylation
K1769 Ubiquitination
S1773 Phosphorylation
S1819 Phosphorylation
S1832 Phosphorylation
S1833 Phosphorylation
S1835 Phosphorylation
T1839 Phosphorylation
K1842 Methylation
K1842 Ubiquitination
K1851 Ubiquitination
T1855 Phosphorylation
S1869 Phosphorylation
S1871 Phosphorylation
K1883 Methylation
K1886 Ubiquitination
S1890 Phosphorylation
S1894 O-Glycosylation
S1894 Phosphorylation
K1899 Ubiquitination
S1903 Phosphorylation
K1910 Ubiquitination
S1928 Phosphorylation
S1943 Phosphorylation
S1953 Phosphorylation
T1954 Phosphorylation
S1955 Phosphorylation
K1963 Ubiquitination
K1969 Methylation
K1969 Ubiquitination
S1972 Phosphorylation
K1977 Acetylation
K1977 Ubiquitination
S1981 Phosphorylation
Y1983 Phosphorylation
T1992 Phosphorylation
S1993 Phosphorylation
Y2003 Phosphorylation
T2005 Phosphorylation
S2008 Phosphorylation
T2027 Phosphorylation
K2033 Ubiquitination
K2053 Ubiquitination
K2061 Ubiquitination
K2070 Ubiquitination
K2096 Ubiquitination
R2103 Methylation
K2125 Ubiquitination
K2127 Ubiquitination
T2128 Phosphorylation
K2136 Ubiquitination
K2138 Ubiquitination
T2153 Phosphorylation P06493 (CDK1)
K2156 Ubiquitination
T2160 Phosphorylation
K2165 Ubiquitination
K2174 Ubiquitination
S2175 Phosphorylation
K2178 Ubiquitination
K2181 Sumoylation
K2181 Ubiquitination
T2185 Phosphorylation
T2189 Phosphorylation
K2190 Ubiquitination
T2192 Phosphorylation
S2199 Phosphorylation
K2212 Ubiquitination
Y2227 Phosphorylation
S2237 Phosphorylation
S2239 Phosphorylation
S2240 Phosphorylation
S2241 Phosphorylation
S2242 Phosphorylation
S2246 Phosphorylation P06493 (CDK1)
S2250 Phosphorylation
S2251 Phosphorylation P06493 (CDK1)
K2255 Sumoylation
S2263 Phosphorylation
T2265 Phosphorylation
S2270 Phosphorylation
K2272 Methylation
S2273 Phosphorylation
S2276 Phosphorylation P06493 (CDK1)
S2278 Phosphorylation
S2280 Phosphorylation P06493 (CDK1)
K2283 Ubiquitination
S2287 Phosphorylation
T2289 Phosphorylation
S2290 Phosphorylation
T2293 Phosphorylation
S2297 Phosphorylation
T2300 Phosphorylation
K2344 Ubiquitination
K2350 Ubiquitination
K2358 Ubiquitination
K2366 Ubiquitination
K2379 Ubiquitination
T2391 Phosphorylation
K2396 Sumoylation
K2396 Ubiquitination
K2415 Acetylation
K2424 Sumoylation
K2424 Ubiquitination
S2431 Phosphorylation
K2433 Sumoylation
K2434 Ubiquitination
K2440 Ubiquitination
T2441 Phosphorylation
K2445 Ubiquitination
S2447 Phosphorylation
T2450 Phosphorylation
S2454 Phosphorylation
S2456 Phosphorylation
S2457 Phosphorylation
T2458 Phosphorylation
S2462 Phosphorylation
K2466 Ubiquitination
T2475 Phosphorylation
T2476 Phosphorylation
T2492 Phosphorylation
S2493 Phosphorylation
S2498 Phosphorylation
S2499 Phosphorylation
T2500 Phosphorylation
S2501 Phosphorylation
T2504 Phosphorylation
S2510 Phosphorylation
K2513 Sumoylation
K2513 Ubiquitination
S2518 Phosphorylation
S2520 Phosphorylation
K2522 Ubiquitination
S2526 Phosphorylation
K2529 Ubiquitination
K2531 Sumoylation
S2538 Phosphorylation
S2539 Phosphorylation
S2543 Phosphorylation
S2548 Phosphorylation
K2554 Methylation
K2554 Sumoylation
S2558 Phosphorylation
T2560 Phosphorylation
S2566 Phosphorylation
S2568 Phosphorylation
K2571 Sumoylation
K2571 Ubiquitination
S2580 Phosphorylation
K2581 Ubiquitination
S2583 Phosphorylation
S2589 Phosphorylation
K2592 Sumoylation
K2594 Sumoylation
S2599 Phosphorylation
T2602 Phosphorylation
S2605 Phosphorylation
S2606 Phosphorylation
Y2609 Phosphorylation
T2610 Phosphorylation
K2612 Sumoylation
T2613 Phosphorylation
K2618 Sumoylation
S2626 Phosphorylation
S2628 Phosphorylation
Y2636 Phosphorylation
T2639 Phosphorylation
T2641 Phosphorylation
K2650 Sumoylation
Y2666 Phosphorylation
S2668 Phosphorylation
T2679 Phosphorylation
S2693 Phosphorylation
K2695 Ubiquitination
T2703 Phosphorylation
K2716 Ubiquitination
K2717 Ubiquitination
K2723 Sumoylation
K2725 Sumoylation
T2734 Phosphorylation
S2741 Phosphorylation
T2743 Phosphorylation
Y2779 Phosphorylation
C2791 S-Nitrosylation
K2792 Sumoylation
S2798 Phosphorylation
S2802 Phosphorylation
S2804 Phosphorylation
S2805 Phosphorylation
S2807 Phosphorylation
S2809 Phosphorylation
S2810 Phosphorylation
S2829 Phosphorylation
S2831 Phosphorylation
S2849 Phosphorylation
S2865 Phosphorylation
S2900 Phosphorylation
S2917 Phosphorylation
S2925 Phosphorylation
K2935 Ubiquitination
K2959 Ubiquitination
K3046 Ubiquitination
S3053 Phosphorylation
S3059 Phosphorylation
K3109 Ubiquitination
K3129 Ubiquitination
K3142 Ubiquitination
S3204 Phosphorylation
S3207 Phosphorylation
C3221 S-Nitrosylation

Research Backgrounds

Function:

E3 SUMO-protein ligase which facilitates SUMO1 and SUMO2 conjugation by UBE2I. Involved in transport factor (Ran-GTP, karyopherin)-mediated protein import via the F-G repeat-containing domain which acts as a docking site for substrates. Binds single-stranded RNA (in vitro). May bind DNA. Component of the nuclear export pathway. Specific docking site for the nuclear export factor exportin-1. Sumoylates PML at 'Lys-490' which is essential for the proper assembly of PML-NB. Recruits BICD2 to the nuclear envelope and cytoplasmic stacks of nuclear pore complex known as annulate lamellae during G2 phase of cell cycle. Probable inactive PPIase with no peptidyl-prolyl cis-trans isomerase activity.

PTMs:

Polyubiquitinated by PRKN, which leads to proteasomal degradation.

The inner channel of the NPC has a different redox environment from the cytoplasm and allows the formation of interchain disulfide bonds between some nucleoporins, the significant increase of these linkages upon oxidative stress reduces the permeability of the NPC.

Subcellular Location:

Nucleus. Nucleus membrane. Nucleus>Nuclear pore complex. Nucleus envelope.
Note: Detected in diffuse and discrete intranuclear foci (PubMed:11839768). Cytoplasmic filaments (PubMed:7775481).

Extracellular region or secreted Cytosol Plasma membrane Cytoskeleton Lysosome Endosome Peroxisome ER Golgi apparatus Nucleus Mitochondrion Manual annotation Automatic computational assertionSubcellular location
Subunit Structure:

Forms a complex with NXT1, NXF1 and RANGAP1. Forms a tight complex with RANBP1 and UBE2I. Interacts with SUMO1 but not SUMO2. Interacts with PRKN. Interacts with sumoylated RANGAP1. Interacts with CDCA8. Interacts with PML (isoform PML-4). Interacts with BICD2. Interacts with MCM3AP isoform GANP.

Family&Domains:

Contains FG repeats. FG repeats are interaction sites for karyopherins (importins, exportins) and form probably an affinity gradient, guiding the transport proteins unidirectionally with their cargo through the NPC. FG repeat regions are highly flexible and lack ordered secondary structure. The overall conservation of FG repeats regarding exact sequence, spacing, and repeat unit length is limited.

The PPIase cyclophilin-type domain has high structural similarity with PPIA, but has extremely low and barely detectable proline isomerase activity (in vitro) (PubMed:23353830). Only about half of the residues that surround the PPIA active site cleft are conserved.

Belongs to the RanBP2 E3 ligase family.

Research Fields

· Genetic Information Processing > Translation > RNA transport.

References

1). SUMOylated IL-33 in the nucleus stabilizes the transcription factor IRF1 in hepatocellular carcinoma cells to promote immune escape. Science Signaling, 2023 (PubMed: 36917642) [IF=7.3]

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