Recombinant Human FYTTD1 protein (ab164533)
Key features and details
- Expression system: Wheat germ
- Tags: GST tag N-Terminus
- Suitable for: WB, ELISA
Description
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Product name
Recombinant Human FYTTD1 protein -
Expression system
Wheat germ -
Protein length
Full length protein -
Animal free
No -
Nature
Recombinant -
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Species
Human -
Sequence
MNRFGTRLVGATATSSPPPKARSNENLDKIDMSLDDIIKLNRKEGKKQNF PRLNRRLLQQSGAQQFRMRVRWGIQQNSGFGKTSLNRRGRVMPGKRRPNG VITGLAARKTTGIRKGISPMNRPPLSDKNIEQYFPVLKRKANLLRQNEGQ RKPVAVLKRPSQLSRKNNIPANFTRSGNKLNHQKDTRQATFLFRRGLKVQ AQLNTEQLLDDVVAKRTRQWRTSTTNGGILTVSIDNPGAVQCPVTQKPRL TRTAVPSFLTKREQSDVKKVPKGVPLQFDINSVGKQTGMTLNERFGILKE QRATLTYNKGGSRFVTVG -
Amino acids
1 to 318 -
Tags
GST tag N-Terminus
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Specifications
Our Abpromise guarantee covers the use of ab164533 in the following tested applications.
The application notes include recommended starting dilutions; optimal dilutions/concentrations should be determined by the end user.
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Applications
Western blot
ELISA
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Form
Liquid -
Additional notes
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Concentration information loading...
Preparation and Storage
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Stability and Storage
Shipped on dry ice. Upon delivery aliquot and store at -80ºC. Avoid freeze / thaw cycles.
pH: 8.00
Constituents: 0.31% Glutathione, 0.79% Tris HCl
General Info
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Alternative names
- DKFZp761B1514
- Forty two three domain containing 1
- Forty two three domain containing protein 1
see all -
Function
Required for mRNA export from the nucleus to the cytoplasm. Acts as an adapter that uses the DDX39B/UAP56-NFX1 pathway to ensure efficient mRNA export and delivering to the nuclear pore. Associates with spliced and unspliced mRNAs simultaneously with THOC4. -
Sequence similarities
Belongs to the UIF family. -
Cellular localization
Nucleus > nucleoplasm. Nucleus speckle. - Information by UniProt
Protocols
To our knowledge, customised protocols are not required for this product. Please try the standard protocols listed below and let us know how you get on.
Datasheets and documents
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Datasheet download
References (1)
ab164533 has been referenced in 1 publication.
- Savitski MM et al. Multiplexed Proteome Dynamics Profiling Reveals Mechanisms Controlling Protein Homeostasis. Cell 173:260-274.e25 (2018). PubMed: 29551266