DUS1L Over-expression Lysate Product

Price:

468.66 €

Known as:: DUS1L Over-expression Lysate Product
Catalog number:: GWB-C5F38F
Product Quantity:: 0.1 mg
Category:: -
Supplier:: GenWay
Gene target:: DUS1L Over-expression Lysate Product

Related genes to: DUS1L Over-expression Lysate Product

Gene:: DUS1L ^{NIH gene}
Name:: dihydrouridine synthase 1 like
Previous symbol:: -
Synonyms:: PP3111, DUS1
Chromosome:: 17q25.3
Locus Type:: gene with protein product
Date approved:: 2005-05-05
Date modifiied:: 2016-02-15

Related products to: DUS1L Over-expression Lysate Product

(META) Human Metapneumovirus Type 16 (A1) Lysate(META) Human Metapneumovirus Type 18 (B2) Lysate(META) Human Metapneumovirus Type 20 (A2) Lysate(META) Human Metapneumovirus Type 27 (A2) Lysate(META) Human Metapneumovirus Type 3 (B1) Lysate(META) Human Metapneumovirus Type 4 (B2) Lysate(META) Human Metapneumovirus Type 5 (B1) Lysate(META) Human Metapneumovirus Type 8 (B2) Lysate(META) Human Metapneumovirus Type 9 (A1) Lysate0 day neonate eyeball cDNA. RIKEN full-length enriched library. clone E130107M17 product hypothetical protein. full insert seque - N_A Polyclonal0 day neonate head cDNA. RIKEN full-length enriched library. clone 4831434J02 product nuclear factor of activated T-cells. cytop - N_A Polyclonal0 day neonate head cDNA. RIKEN full-length enriched library. clone 4832421E02 product myocyte enhancer factor 2C. full insert se - N_A Polyclonal1,2,3,4-Tetrahydro-1,2-dimethyl-4,6-isoquinolinediol (Major Product) CAS: 102830-16-0 Formula: C11H15NO21,2,3,4-tetrahydro-1,2-dimethyl-4,8-isoquinolinediol (Minor Product) CAS: 102830-20-6 Formula: C11H15NO210 days embryo whole body cDNA. RIKEN full-length enriched library. clone 2610510L15 product poly(A)-specific ribonuclease (dead - N_A Polyclonal

Related articles to: DUS1L Over-expression Lysate Product

Human DUS1L catalyzes dihydrouridine modification at tRNA positions 16/17, and DUS1L overexpression perturbs translation.
Human cytoplasmic tRNAs contain dihydrouridine modifications at positions 16 and 17 (D16/D17). The enzyme responsible for D16/D17 formation and its cellular roles remain elusive. Here, we identify DUS1L as the human tRNA D16/D17 writer. DUS1L knockout in the glioblastoma cell lines LNZ308 and U87 causes loss of D16/D17. D formation is reconstituted in vitro using recombinant DUS1L in the presence of NADPH or NADH. DUS1L knockout/overexpression in LNZ308 cells shows that DUS1L supports cell growth. Moreover, higher DUS1L expression in glioma patients is associated with poorer prognosis. Upon vector-mediated DUS1L overexpression in LNZ308 cells, 5' and 3' processing of precursor tRNA is inhibited, resulting in a reduced mature tRNA level, reduced translation of the tyrosine codons UAC and UAU, and reduced translational readthrough of the near-cognate stop codons UAA and UAG. Moreover, DUS1L overexpression increases the amounts of several D16/D17-containing tRNAs and total cellular translation. Our study identifies a human dihydrouridine writer, providing the foundation to study its roles in health and disease. - Source: PubMed
Publication date: 2024/10/02
Matsuura JinAkichika ShinichiroWei Fan-YanSuzuki TsutomuYamamoto TakahiroWatanabe YukaValášek Leoš ShivayaMukasa AkitakeTomizawa KazuhitoChujo Takeshi
Parallel-reaction monitoring revealed altered expression of a number of epitranscriptomic reader, writer, and eraser proteins accompanied with colorectal cancer metastasis.
RNA contains more than 170 types of chemical modifications, and these modified nucleosides are recognized, installed and removed by their reader, writer, and eraser (RWE) proteins, respectively. Here, we employed a parallel-reaction monitoring (PRM)-based targeted proteomic method, in conjunction with stable isotope labeling by amino acids in cell culture (SILAC), to examine comprehensively the differential expression of epitranscriptomic RWE proteins in a matched pair of primary/metastatic colorectal cancer (CRC) cells, namely SW480/SW620. We were able to quantify 113 nonredundant epitranscriptomic RWE proteins; among them, 48 and 5 were up- and down-regulated by >1.5-fold in SW620 over SW480 cells, respectively. Some of those proteins with marked up-regulation in metastatic CRC cells, including NAT10, hnRNPC, and DKC1, were documented to assume important roles in the metastasis of CRC and other types of cancer. Interrogation of the Clinical Proteomic Tumor Analysis Consortium data revealed the involvement of DUS1L in the initiation and metastatic transformation of CRC. It can be envisaged that the PRM method can be utilized, in the future, to identify epitranscriptomic RWE proteins involved in the metastatic transformations of other types of cancer. - Source: PubMed
Publication date: 2022/04/26
Qi Tianyu FTang FengYin JiekaiMiao WeiliWang Yinsheng

DUS1L Over-expression Lysate Product

Related genes to: DUS1L Over-expression Lysate Product

Related products to: DUS1L Over-expression Lysate Product

Related articles to: DUS1L Over-expression Lysate Product

Human DUS1L catalyzes dihydrouridine modification at tRNA positions 16/17, and DUS1L overexpression perturbs translation.

Parallel-reaction monitoring revealed altered expression of a number of epitranscriptomic reader, writer, and eraser proteins accompanied with colorectal cancer metastasis.