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These studies confirm a functional role for CD302 in myeloid dendritic cells migration.
Data show OCILRP2 binding to DAP12 (show TYROBP Proteins) resulting in Raf (show RAF1 Proteins)-MAP kinase (show MAPK1 Proteins) pathways activation and T-cell activation.
OCILRP2 is a regulator of dendritic cells maturation and differentiation following TLR4 (show TLR4 Proteins) activation.
The electrostatic profile of NKR-P1F (show KLRB1F Proteins) is complementary to that of Clr-g, which suggests a plausible interaction mechanism based on contacts between surface sites of opposite potential.
studies reveal a unique functional interaction between two C-type lectins, OCILRP2/Clr-g and NKRP1f (show KLRB1F Proteins), during APC (show APC Proteins)-mediated T cell costimulation and suggest a role for C-type lectins in maintaining T cell response or memory in vivo
hDCL-1 is an unconventional lectin receptor that plays roles not only in endocytosis/phagocytosis but also in cell adhesion and migration
Identification of a novel family of genes, named Clr (show CALCR Proteins), encoding C-type lectin-like molecules, which maps in the natural killer (NK) gene complex (NKC) on mouse Chromosome 6.
mouse Nkrp1d and Nkrp1f (show KLRB1F Proteins) bind specific C-type lectin-related (Clr (show CALCR Proteins)) molecules. Nkrp1d mediated inhibition when recognizing Clrb (show CLEC2D Proteins), a molecule expressed in dendritic cells and macrophages. Nkrp1 and Clr (show CALCR Proteins) are intertwined in a genetically conserved NKC region.
Decreased DCL1 is associated with angiogenesis in prostate cancer.
Hodgkin's lymphoma cell lines express a fusion protein encoded by intergenically spliced mRNA for the multilectin receptor DEC-205 (CD205 (show LY75 Proteins)) and a novel C-type lectin receptor (show CLEC4D Proteins) DCL-1
DCL1 equilibrium unfolding is characterized at the amino acid level.
Further analysis revealed that the steady state level of HYL1 (show EPHX1 Proteins) protein in plants under osmotic stress is dependent on the SnRK2 kinases. Additionally, our results suggest that the SnRK2 kinases physically associate with the miRNA processing components SE and HYL1 (show EPHX1 Proteins) and can phosphorylate these proteins in vitro.
Lariat RNAs localized in nuclear bodies, and partially co-localize with HYL1 (show EPHX1 Proteins), and both DCL1 and HYL1 (show EPHX1 Proteins) were mis (show AMH Proteins)-localized in dbr1 (show DBR1 Proteins)-2... we thus propose that lariat RNAs, as decoys, inhibit miRNA processing, suggesting a hitherto unknown layer of regulation in miRNA biogenesis.
a detailed modeling and molecular dynamics study of dsRNA recognition by DCL1-1.
CDF2 binds preferentially to the pri-miRNAs regulated by itself and affects DCL1-mediated processing of these pri-miRNAs.
CMA33/XCT modulates small RNA production through regulating the transcription of Dicer (show DICER1 Proteins)-Like Genes.
The first double stranded RNA binding domain (dsRBD) of DCL1 is intrinsically disordered, but it can still perform its expected role, binding dsRNA and working jointly with the second dsRBD in the recognition of the substrate.
Data suggest a mechanism of plant miRNA maturation which involves binding of the HEN1 (show HENMT1 Proteins) methyltransferase to the DICER-LIKE 1 ribonuclease DCL1*RNA-binding protein HYL1 (show EPHX1 Proteins)*miRNA complex.
The C-terminal dsRBDs of DCL1 and N-terminal dsRBDs of HYL1 (show EPHX1 Proteins) have parallel roles.
the recognition of the target residue by the canonical binding cleft of the DDL FHA (show CRY2 Proteins) domain as the key molecular event to instate FHA (show CRY2 Proteins) domain-mediated protein-protein interaction in plant miRNA processing
The results suggest that the interactions among SERRATE, DICER-LIKE 1 and RNA are a potential point for regulating pri-miRNA processing.
CD302 is a C-type lectin receptor involved in cell adhesion and migration, as well as endocytosis and phagocytosis (Kato et al., 2007
, type I transmembrane C-type lectin receptor DCL-1
, C-type lectin 1
, C-type lectin domain family 2 member I
, C-type lectin-related protein DCL1
, C-type lectin-related protein G
, lymphoid-derived C-type lectin-1
, ocil-related protein 2
, osteoclast inhibitory lectin related protein 2
, osteoclast inhibitory lectin-related protein 2
, C-type lectin domain family 13 member A
, C-type lectin domain family 13, member A
, CD302 antigen
, DEC205-associated C-type lectin 1