Recombinant Mouse Semaphorin 3A/SEMA3A Protein (Fc Tag) | PKSM040574

Recombinant Mouse Semaphorin 3A/SEMA3A Protein (Fc Tag) | PKSM040574 | Gentaur US, UK & Europe Disrtribition

Synonyms: coll-1;Hsema-I;SEMA1;Semad;SemD

Active Protein: N/A

Activity: A DNA sequence encoding the N-terminal fragment (Lys 26-Phe 546) of mouse SEMA3A (O08665) was fused with the Fc region of human IgG1 at the N-terminus.

Protein Construction: A DNA sequence encoding the N-terminal fragment (Lys 26-Phe 546) of mouse SEMA3A (O08665) was fused with the Fc region of human IgG1 at the N-terminus.

Fusion Tag: N-Fc

Species: Mouse

Expressed Host: HEK293 Cells

Shipping: This product is provided as lyophilized powder which is shipped with ice packs.

Purity: > 80 % as determined by reducing SDS-PAGE.

Endotoxin: < 1.0 EU per μg of the protein as determined by the LAL method.

Stability and Storage: Generally, lyophilized proteins are stable for up to 12 months when stored at -20 to -80℃. Reconstituted protein solution can be stored at 4-8℃ for 2-7 days. Aliquots of reconstituted samples are stable at < -20℃ for 3 months.

Molecular Mass: 87.7 kDa

Formulation: Lyophilized from sterile PBS, pH 7.4

Reconstitution: Please refer to the printed manual for detailed information.

Background: Semaphorins are a family of secreted and cell-bound signaling molecules defined by the presence of a common 500 aa Sema domain. They are best characterized in relation to axon guidance during development of the nervous system. The functions of Semaphorins 3A (SEMA3A) are mediated primarily through binding to the Neuropilin-1 (Npn-1) and Plexin-A1 coreceptor complex. Neuropilins lack a signaling-competent cytoplasetmic domain and ensure semaphorin binding, whereas the transmembrane receptor plexin mediates the intracellular response. As the first identified vertebrate semaphorin, SEMA3A functions either as a chemorepulsive agent inhibiting axonal outgrowth, or as a chemoattractive agent stimulating the growth of apical dendrites. In both cases, the protein is vital for normal neuronal pattern development. Its overexpression is associated with schizophrenia which is seen in various human tumor cell lines, and aberrant release is associated with the progression of Alzheimer's disease

Research Area: N/A