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抗Human SRSF10 抗体:
抗Mouse (Murine) SRSF10 抗体:
抗Rat (Rattus) SRSF10 抗体:
Results show that YTHDC1 (显示 YTHDC1 抗体) promotes exon inclusion in targeted mRNAs through recruiting pre-mRNA splicing factor (显示 SNRPB 抗体) SRSF3 (显示 SRSF3 抗体) while blocking SRSF10 mRNA binding.
SRSF10 is a key regulator of BCLAF1 (显示 BCLAF1 抗体) pre-mRNA splicing and the maintenance of oncogenic features in human colon cancer cells
In colorectal cancer, NSSR1 was highly expressed in the nucleus of tumor cells.
Splicing thermotolerance is acquired through maintenance of SRSF10 phosphorylation and that this is mediated at least in part by Hsp27 (显示 HSPB1 抗体).
Data show that SFRS13A expression was significantly associated with LDLR (显示 LDLR 抗体) splicing efficiency in vivo.
found to be dephosphorylated specifically in mitotic cells; show that dephosphorylated SRp38 is required for the observed splicing repression
SRp38 plays a crucial role in cell survival under stress conditions by inhibiting the splicing machinery
SRp38 contains two arginine- and serine-rich domains (RS), one of which has a unique, second-step repression activity, while both function together as a splicing repression domain.
SRSF10 represses inclusion of PGC1alpha exon 7a.
The results of this study suggested for the first time that NSSR1 may provide a novel mechanism for reducing neuronal injury after ischemia, probably through regulation on alternative splicing of NCAM-L1 (显示 L1CAM 抗体) and CREB (显示 CREB1 抗体) in astrocytes.
We further show that an SRSRSK sequence in the RS3 (显示 EDAR 抗体) domain may play an important role in the function of NSSR1 in pre-mRNA splicing.
These results identify SRSF10 as an essential regulator for adipocyte differentiation.
the potential roles of NSSR1 in sperm maturation and fertilization
NSSR1 mRNA was expressed in mouse cerebrum, cerebellum, heart, liver, intestine, kidney and lung tissue, but NSSR1 protein was only expressed in neural tissues.
The NSSR1 promotes neuronal differentiation and the splicing of NCAML1 (显示 L1CAM 抗体) exon2 and TrkC (显示 NTRK3 抗体)-K1.
NSSR1 and NSSR2 function as splicing modulators via binding to pre-mRNAs.
The findings for the first time provide the evidence indicating the potential importance of NSSR1 in testes development, spermatogenesis and cryptorchidism.
This gene product is a member of the serine-arginine (SR) family of proteins, which is involved in constitutive and regulated RNA splicing. Members of this family are characterized by N-terminal RNP1 and RNP2 motifs, which are required for binding to RNA, and multiple C-terminal SR/RS repeats, which are important in mediating association with other cellular proteins. This protein can influence splice site selection of adenovirus E1A pre-mRNA. It interacts with the oncoprotein TLS, and abrogates the influence of TLS on E1A pre-mRNA splicing. This gene has multiple pseudogenes. Alternative splicing of this gene results in multiple transcript variants encoding different isoforms. In addition, transcript variants utilizing alternative polyA sites exist.
serine/arginine-rich splicing factor 10
, FUS interacting protein (serine-arginine rich) 1
, FUS interacting protein (serine/arginine-rich) 1
, splicing factor, arginine/serine-rich 13A
, 40 kDa SR-repressor protein
, FUS-interacting protein (serine-arginine rich) 2
, FUS-interacting serine-arginine-rich protein 1
, SR splicing factor 10
, TLS-associated SR protein
, TLS-associated protein TASR
, TLS-associated protein with SR repeats
, TLS-associated protein with Ser-Arg repeats
, TLS-associated serine-arginine protein 1
, TLS-associated serine-arginine protein 2
, neural-salient SR protein
, serine-arginine repressor protein (40 kDa)
, splicing factor SRp38
, splicing factor, arginine/serine-rich 13
, Fus-associated protein with serine-arginine repeats
, TLS-associated serine-arginine protein
, neural-salient serine/arginine-rich protein
, neural-specific SR protein
, serine/arginine-rich splicing factor 13A