Sterile alpha motif

SAMSAM domaintandem sterile alpha motif (SAM)
In molecular biology, the protein domain Sterile alpha motif (or SAM) is a putative protein interaction module present in a wide variety of proteins involved in many biological processes.wikipedia
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ANKS1A

ANKS1A; ANKS1B; ANKS3; ANKS4B; ANKS6; BFAR; BICC1; CASKIN1;
ODIN is a member of the ankyrin repeat and sterile alpha motif domain-containing (ANKS) family and contains 6 ankyrin repeats, 1 phosphotyrosine binding (PTD) domain, and 2 tandem sterile alpha motif (SAM) domains.

STARD13

SCML1; SCML2; SEC23IP; SGMS1; SHANK1; SHANK2; SHANK3; STARD13; UBP1;
The protein consists of an N-terminal sterile alpha motif (SAM) domain, a serine-rich domain, a RhoGAP domain and at the C-terminus, a StAR-related lipid-transfer domain (START).

Molecular biology

molecular biologistmolecularmolecular microbiology
In molecular biology, the protein domain Sterile alpha motif (or SAM) is a putative protein interaction module present in a wide variety of proteins involved in many biological processes. In molecular biology, the protein domain Ste50p mainly in fungi and some other types of eukaryotes.

Protein domain

domainsdomainstructural domain
In molecular biology, the protein domain Sterile alpha motif (or SAM) is a putative protein interaction module present in a wide variety of proteins involved in many biological processes. In molecular biology, the protein domain Ste50p mainly in fungi and some other types of eukaryotes.

RNA

ribonucleic aciddsRNAdouble-stranded RNA
SAM domains also appear to possess the ability to bind RNA.

Smaug (protein)

SmaugSmaug protein
Smaug, a protein that helps to establish a morphogen gradient in Drosophila embryos by repressing the translation of nanos (nos) mRNA, binds to the 3' untranslated region (UTR) of nos mRNA via two similar hairpin structures.

Nanos 3′ UTR translation control element

nanos (nos) mRNA,
Smaug, a protein that helps to establish a morphogen gradient in Drosophila embryos by repressing the translation of nanos (nos) mRNA, binds to the 3' untranslated region (UTR) of nos mRNA via two similar hairpin structures.

EPH receptor B2

EPHB2Ephrin B2
In the case of the SAM domain of EPHB2, each of these interfaces is able to form dimers.

Eukaryote

Eukaryotaeukaryoticeukaryotes
In molecular biology, the protein domain Ste50p mainly in fungi and some other types of eukaryotes.

Mitogen-activated protein kinase

MAPKMAP kinasemitogen-activated protein kinases
It plays a role in the mitogen-activated protein kinase cascades, a type of cell signalling that helps the cell respond to external stimuli, more specifically mating, cell growth, and osmo-tolerance in fungi.

Cell signaling

cell signallingsignallingsignaling pathway
It plays a role in the mitogen-activated protein kinase cascades, a type of cell signalling that helps the cell respond to external stimuli, more specifically mating, cell growth, and osmo-tolerance in fungi.

Pheromone

pheromonespheromonalalarm pheromone
The protein domain Ste50p has a role in detecting pheromones for mating.

Mating

matematescopulation
The protein domain Ste50p has a role in detecting pheromones for mating.

Nitrogen

NN 2 dinitrogen
Furthermore, it is also involved in aiding the cell to respond to nitrogen starvation.

Fungus

Fungifungalnecrotrophic
In molecular biology, the protein domain Ste50p mainly in fungi and some other types of eukaryotes. The fungal Ste50p SAM consists of six helices, which form a compact, globular fold.

Alpha helix

alpha helicesα-helicesalpha-helices
The fungal Ste50p SAM consists of six helices, which form a compact, globular fold.

Protein folding

foldfoldingfolded
The fungal Ste50p SAM consists of six helices, which form a compact, globular fold.

Protein

proteinsproteinaceousstructural proteins
It is a monomer in solution and often undergoes heterodimerisation (and in some cases oligomerisation) of the protein.

Chemical bond

bondbondschemical bonds
They form bonds through this association.

ANKS1B

ANKS1A; ANKS1B; ANKS3; ANKS4B; ANKS6; BFAR; BICC1; CASKIN1;

ANKS4B

ANKS1A; ANKS1B; ANKS3; ANKS4B; ANKS6; BFAR; BICC1; CASKIN1;

CENTD1

CASKIN2; CENTD1; CNKSR2; CNKSR3; DDHD2; EPHA1; EPHA10; EPHA2;

CNKSR2

CASKIN2; CENTD1; CNKSR2; CNKSR3; DDHD2; EPHA1; EPHA10; EPHA2;

CNKSR3

CASKIN2; CENTD1; CNKSR2; CNKSR3; DDHD2; EPHA1; EPHA10; EPHA2;

EPH receptor A1

EPHA1
CASKIN2; CENTD1; CNKSR2; CNKSR3; DDHD2; EPHA1; EPHA10; EPHA2;