目录号 | 产品详情 | 靶点 | |
---|---|---|---|
T6446 | HBV DNA/RNA Synthesis | ||
Clevudine (Levovir) 是一种非自然 L-构型的核苷类似物,是一种与聚合酶结合的非竞争性抑制剂,具有较强的抗 HBV 活性,半衰期长,毒性低的特点。 | |||
T3231 | Apoptosis Others PARP | ||
Niraparib (MK-4827) 是一种 PARP 抑制剂,可以抑制 PARP1 和 PARP2 (IC50=3.8/2.1 nM),具有选择性。Niraparib 具有抗肿瘤活性,可以抑制 DNA 损伤修复、诱导细胞凋亡。 | |||
T5S2358 | BCL PARP p38 MAPK Caspase Parasite Autophagy | ||
Dehydrocorydaline (13-Methylpalmatine) 是一种生物碱。它调节Bax,Bcl-2蛋白表达,激活caspase-7,caspase-8,并使PARP 失活。它能增强p38 MAPK 活化,具有抗炎、抗癌等功效。它具有强大的抗疟疾作用,并具低细胞毒性。 | |||
T2124 | PARP | ||
PJ34 hydrochloride (PJ34 HCl) 是一种 PARP1/2的特异性有效抑制剂,IC50值分别为 110 nM 和 86 nM。 | |||
T8972 | Others DNA/RNA Synthesis CDK HSV | ||
FIT-039 是一种选择性和 ATP 竞争性的口服活性 CDK9 抑制剂,对CKD9/cyclin T1的IC50为 5.8 μM。它抑制HSV-1(IC50为 0.69 μM),HSV-2,人腺病毒和人CMV 的复制。它可抑制耐药性HSV 和其他 DNA 病毒,是有前途的抗病毒药物。 | |||
T7439 | PARP Antibacterial Transferase | ||
3-Methoxybenzamide (3-MBA) 是一种多聚 ADP-核糖合成酶的竞争性抑制剂,可抑制枯草芽孢杆菌的细胞分裂,诱导细胞凋亡。它可促进蓝薯植株的生长、微瘤化和转化效率。 | |||
T6912 | PARP | ||
NU1025 (NSC-696807) 是一种PARP 的有效抑制剂,IC50为 400 nM,Ki 为 48 nM。它可增强电离辐射和抗癌药物的细胞毒性,有抗癌和神经保护的作用。 | |||
T6780 | PARP Endogenous Metabolite | ||
Benzamide (Amid kyseliny benzoove) 是聚(ADP-核糖)聚合酶的抑制剂,是苯甲酸的衍生物。 | |||
T3489 | HCV Protease | ||
Dasabuvir (ABT-333) 是丙型肝炎病毒非结构蛋白 5B 的非核苷抑制剂,是一种 RNA 依赖性 RNA 聚合酶,具有抗 HCV 的潜在活性。 | |||
T9024 | Others PARP | ||
OUL35 (NSC-39047) 是一种选择性 PARP-10 抑制剂和小分子 ARTD10 抑制剂,其 IC50值为 329 nM。 |
目录号 | 产品名/同用名 | 种属 | 表达系统 | ||
---|---|---|---|---|---|
TMPH-00426 | DNA polymerase IV Protein, Colwellia psychrerythraea, Recombinant (His) | Colwellia psychrerythraea | E. coli | ||
Poorly processive, error-prone DNA polymerase involved in untargeted mutagenesis. Copies undamaged DNA at stalled replication forks, which arise in vivo from mismatched or misaligned primer ends. These misaligned primers can be extended by PolIV. Exhibits no 3'-5' exonuclease (proofreading) activity. May be involved in translesional synthesis, in conjunction with the beta clamp from PolIII. DNA polymerase IV Protein, Colwellia psychrerythraea, Recombinant (His) is expressed in E. coli expression system with N-6xHis tag. The predicted molecular weight is 43.3 kDa and the accession number is Q487H6.
|
|||||
TMPH-00427 | DNA polymerase IV Protein, Colwellia psychrerythraea, Recombinant | Colwellia psychrerythraea | E. coli | ||
Poorly processive, error-prone DNA polymerase involved in untargeted mutagenesis. Copies undamaged DNA at stalled replication forks, which arise in vivo from mismatched or misaligned primer ends. These misaligned primers can be extended by PolIV. Exhibits no 3'-5' exonuclease (proofreading) activity. May be involved in translesional synthesis, in conjunction with the beta clamp from PolIII. DNA polymerase IV Protein, Colwellia psychrerythraea, Recombinant is expressed in E. coli expression system. The predicted molecular weight is 39.3 kDa and the accession number is Q487H6.
|
|||||
TMPH-00523 | DNA-directed DNA polymerase Protein, Enterobacteria phage RB69, Recombinant (His & Myc) | Escherichia phage RB69 | E. coli | ||
Replicates the viral genomic DNA. This polymerase possesses two enzymatic activities: DNA synthesis (polymerase) and an exonucleolytic activity that degrades single-stranded DNA in the 3'- to 5'-direction for proofreading purpose. DNA-directed DNA polymerase Protein, Enterobacteria phage RB69, Recombinant (His & Myc) is expressed in E. coli expression system with N-10xHis and C-Myc tag. The predicted molecular weight is 35.4 kDa and the accession number is Q38087.
|
|||||
TMPH-00613 | DNA polymerase II Protein, E. coli, Recombinant (His & Myc) | E. coli | E. coli | ||
Thought to be involved in DNA repair and/or mutagenesis. Its processivity is enhanced by the beta sliding clamp (dnaN) and clamp loader.
|
|||||
TMPH-00360 | DNA polymerase II large subunit Protein, Cenarchaeum symbiosum, Recombinant | Cenarchaeum symbiosum | E. coli | ||
Possesses two activities: a DNA synthesis (polymerase) and an exonucleolytic activity that degrades single-stranded DNA in the 3'- to 5'-direction. Has a template-primer preference which is characteristic of a replicative DNA polymerase. DNA polymerase II large subunit Protein, Cenarchaeum symbiosum, Recombinant is expressed in E. coli expression system. The predicted molecular weight is 59.0 kDa and the accession number is A0RYM0.
|
|||||
TMPY-01188 | PARP Protein, Human, Recombinant (His) | Human | Baculovirus Insect Cells | ||
PARP Protein, Human, Recombinant (His) is expressed in Baculovirus insect cells with His tag. The predicted molecular weight is 114.5 kDa and the accession number is A0A024R3T8.
|
|||||
TMPY-06071 | SARS-CoV-2 RNA-dependent RNA polymerase/RDRP Protein (His) | SARS-CoV-2 | Baculovirus Insect Cells | ||
SARS-CoV-2 RNA-dependent RNA polymerase/RDRP Protein (His) is expressed in Baculovirus insect cells with His tag. The predicted molecular weight is 108.3 kDa and the accession number is YP_009725307.1.
|
|||||
TMPJ-00792 | DNA PolymeraseBeta Protein, Human, Recombinant (His) | Human | E. coli | ||
Human DNA polymerase β is constitutively expressed in cells. It fills in gaps in DNA that are formed following base excision repair. Repair polymerase that plays a key role in base-excision repair. Has 5'-deoxyribose-5-phosphate lyase (dRP lyase) activity that removes the 5' sugar phosphate and also acts as a DNA polymerase that adds one nucleotide to the 3' end of the arising single-nucleotide gap. It conducts 'gap-filling' DNA synthesis in a stepwise distributive fashion rather than in a processive fashion as for other DNA polymerases. The activity cannot be affected by Aphidicolin, which is an inhibitor of DNA polymerase β.
|
|||||
TMPH-02884 | CTDP1 Protein, Mouse, Recombinant (His & Myc) | Mouse | E. coli | ||
Processively dephosphorylates 'Ser-2' and 'Ser-5' of the heptad repeats YSPTSPS in the C-terminal domain of the largest RNA polymerase II subunit. This promotes the activity of RNA polymerase II. Plays a role in the exit from mitosis by dephosphorylating crucial mitotic substrates (USP44, CDC20 and WEE1) that are required for M-phase-promoting factor (MPF)/CDK1 inactivation. CTDP1 Protein, Mouse, Recombinant (His & Myc) is expressed in E. coli expression system with N-10xHis and C-Myc tag. The predicted molecular weight is 24.0 kDa and the accession number is Q7TSG2.
|
|||||
TMPH-00533 | T7 RNA polymerase Protein, Enterobacteria phage T7, Recombinant (His & Myc) | Escherichia phage T7 | E. coli | ||
Highly processive DNA-dependent RNA polymerase that catalyzes the transcription of class II and class III viral genes. Recognizes a specific promoter sequence and enters first into an 'abortive phase' where very short transcripts are synthesized and released before proceeding to the processive transcription of long RNA chains. Unwinds the double-stranded DNA to expose the coding strand for templating. Participates in the initiation of viral DNA replication presumably by making primers accessible to the DNA polymerase, thus facilitating the DNA opening. Plays also a role in viral DNA packaging, probably by pausing the transcription at the right end of concatemer junction to allow packaging complex recruitment and beginning of the packaging process.
|
|||||
TMPY-02421 | PARP3 Protein, Human, Recombinant (His & GST) | Human | Baculovirus Insect Cells | ||
Poly(ADP-ribose) polymerase 3 (PARP3) is an important member of the PARP family and shares high structural similarities with both PARP1 and PARP2. Poly(ADP-ribose) polymerase 3 (PARP3), a critical player in cellular response to DNA double-strand breaks (DSBs), plays an essential role in the maintenance of genome integrity. The ADP ribosyl transferase [poly(ADP-ribose) polymerase] ARTD3(PARP3) is a newly characterized member of the ARTD(PARP) family that catalyzes the reaction of ADP ribosylation, a key posttranslational modification of proteins involved in different signaling pathways from DNA damage to energy metabolism and organismal memory.
|
|||||
TMPY-02465 | PARP Protein, Mouse, Recombinant (His) | Mouse | Baculovirus Insect Cells | ||
PARP Protein, Mouse, Recombinant (His) is expressed in Baculovirus insect cells with His tag. The predicted molecular weight is 115 kDa and the accession number is Q921K2.
|
|||||
TMPH-02356 | Influenza A H1N1 (strain A/USA:Huston/AA/1945) Polymerase acidic Protein (His) | H1N1 | P. pastoris (Yeast) | ||
Influenza A H1N1 (strain A/USA:Huston/AA/1945) Polymerase acidic Protein (His) is expressed in yeast with N-6xHis tag. The predicted molecular weight is 26.6 kDa and the accession number is A4U6V9.
|
|||||
TMPH-02357 | Influenza A H3N2 (strain A/X-31) Polymerase acidic Protein (His) | H3N2 | E. coli | ||
Influenza A H3N2 (strain A/X-31) Polymerase acidic Protein (His) is expressed in E. coli expression system with N-6xHis tag. The predicted molecular weight is 18.6 kDa and the accession number is Q9IQ47.
|
|||||
TMPH-01450 | Human herpesvirus 6A (HHV-6 variant A) (strain Uganda-1102) DNA polymerase processivity factor (His) | HHV-6A | P. pastoris (Yeast) | ||
Human herpesvirus 6A (HHV-6 variant A) (strain Uganda-1102) DNA polymerase processivity factor (His) is expressed in Yeast.
|
|||||
TMPH-02580 | CHRAC1 Protein, Mouse, Recombinant (His & Myc) | Mouse | E. coli | ||
Forms a complex with DNA polymerase epsilon subunit POLE3 and binds naked DNA, which is then incorporated into chromatin, aided by the nucleosome remodeling activity of ISWI/SNF2H and ACF1. Does not enhance nucleosome sliding activity of the ACF-5 ISWI chromatin remodeling complex. CHRAC1 Protein, Mouse, Recombinant (His & Myc) is expressed in E. coli expression system with N-10xHis and C-Myc tag. The predicted molecular weight is 21.4 kDa and the accession number is Q9JKP8.
|
|||||
TMPH-03230 | PHB depolymerase Protein, Ralstonia pickettii, Recombinant (His) | Ralstonia pickettii | E. coli | ||
This protein degrades water-insoluble and water-soluble PHB to monomeric D(-)-3-hydroxybutyrate. PHB depolymerase Protein, Ralstonia pickettii, Recombinant (His) is expressed in E. coli expression system with N-6xHis tag. The predicted molecular weight is 50.9 kDa and the accession number is P12625.
|
|||||
TMPY-05822 | Hepatitis B Virus (HBV)(ayw/France/Tiollais/1979) Capsid protein (His) | HBV-D | E. coli | ||
Hepatitis B virus (HBV) capsid assembly is a critical step in the propagation of the virus and is mediated by the core protein. The first cytoplasmic step in the formation of an infectious HBV virion is the formation of a capsid containing pregenomic RNA (pgRNA) and the viral polymerase (Pol). HBV capsid assembly is an attractive target for new antiviral therapies.
|
|||||
TMPH-01247 | POLR3K Protein, Human, Recombinant (His) | Human | Baculovirus Insect Cells | ||
DNA-dependent RNA polymerase catalyzes the transcription of DNA into RNA using the four ribonucleoside triphosphates as substrates. Component of RNA polymerase III which synthesizes small RNAs, such as 5S rRNA and tRNAs. Plays a key role in sensing and limiting infection by intracellular bacteria and DNA viruses. Acts as nuclear and cytosolic DNA sensor involved in innate immune response. Can sense non-self dsDNA that serves as template for transcription into dsRNA. The non-self RNA polymerase III transcripts, such as Epstein-Barr virus-encoded RNAs (EBERs) induce type I interferon and NF- Kappa-B through the RIG-I pathway.
|
|||||
TMPH-03698 | VSIV (strain Glasgow) Phosphoprotein Protein (His & Myc) | VSIV | E. coli | ||
Essential component of the RNA polymerase transcription and replication complex. Binds the viral ribonucleocapsid and positions the L polymerase on the template. May act as a chaperone for newly synthesized free N protein, so-called N(0). Plays a role in virion assembly. VSIV (strain Glasgow) Phosphoprotein Protein (His & Myc) is expressed in E. coli expression system with N-10xHis and C-Myc tag. The predicted molecular weight is 34.9 kDa and the accession number is P04879.
|
|||||
TMPJ-01067 | TFIIB Protein, Human, Recombinant (GST) | Human | E. coli | ||
Transcription Initiation Factor IIB (TFIIB) is an essential factor for transcription by RNA Polymerase II. TFIIB localizes to the nucleus where it forms a complex (the DAB complex) with transcription factor IID and IIA. TFIIB plays a role as a bridge between IID, which initially recognizes the promoter sequence, and RNA polymerase II. TFIIB is involved in the selection of transcription start site.
|
|||||
TMPY-05024 | Zika virus (ZIKV) (strain Zika SPH2015) ZIKV-NS5 protein (His) | ZIKV | Baculovirus Insect Cells | ||
Zika virus NS5 is involved in methytransferase and RNA guanylytransferase activities and capping and synthesis of RNA. And, NS5 is also an RNA-dependent RNA polymerase.
|
|||||
TMPH-00717 | Protease 7 Protein, E. coli, Recombinant (His) | E. coli | E. coli | ||
Protease that can cleave T7 RNA polymerase, ferric enterobactin receptor protein (FEP), antimicrobial peptide protamine and other proteins. This protease has a specificity for paired basic residues.
|
|||||
TMPH-01246 | POLR3A Protein, Human, Recombinant (His) | Human | E. coli | ||
DNA-dependent RNA polymerase catalyzes the transcription of DNA into RNA using the four ribonucleoside triphosphates as substrates. Largest and catalytic core component of RNA polymerase III which synthesizes small RNAs, such as 5S rRNA and tRNAs. Forms the polymerase active center together with the second largest subunit. A single-stranded DNA template strand of the promoter is positioned within the central active site cleft of Pol III. A bridging helix emanates from RPC1 and crosses the cleft near the catalytic site and is thought to promote translocation of Pol III by acting as a ratchet that moves the RNA-DNA hybrid through the active site by switching from straight to bent conformations at each step of nucleotide addition. Plays a key role in sensing and limiting infection by intracellular bacteria and DNA viruses. Acts as nuclear and cytosolic DNA sensor involved in innate immune response. Can sense non-self dsDNA that serves as template for transcription into dsRNA. The non-self RNA polymerase III transcripts, such as Epstein-Barr virus-encoded RNAs (EBERs) induce type I interferon and NF- Kappa-B through the RIG-I pathway.
|
|||||
TMPH-00680 | Protease 7 Protein, E. coli O157:H7, Recombinant (G236K K237G, His & SUMO) | E. coli | E. coli | ||
Protease that can cleave T7 RNA polymerase, ferric enterobactin receptor protein (FEP), antimicrobial peptide protamine and other proteins. This protease has a specificity for paired basic residues.
|
|||||
TMPH-00811 | Hepatitis delta virus genotype I (HDV) Small delta antigen Protein (His & Myc) | HDV | P. pastoris (Yeast) | ||
Promotes both transcription and replication of genomic RNA. Following virus entry into host cell, provides nuclear import of HDV RNPs thanks to its nuclear localization signal. May interact with host RNA polymerase II thereby changing its template requirement from DNA to RNA. RNA pol II complex would then acts as an RNA-directed RNA polymerase, and transcribe and replicate HDV genome. Hepatitis delta virus genotype I (HDV) Small delta antigen Protein (His & Myc) is expressed in yeast with N-6xHis and C-Myc tag. The predicted molecular weight is 25.4 kDa and the accession number is P06934.
|
|||||
TMPH-00727 | FliA Protein, E. coli, Recombinant (His) | E. coli | E. coli | ||
Sigma factors are initiation factors that promote the attachment of RNA polymerase to specific initiation sites and are then released. This sigma factor controls the expression of flagella-related genes.
|
|||||
TMPH-00729 | RpoH Protein, E. coli, Recombinant (His & Myc) | E. coli | E. coli | ||
Sigma factors are initiation factors that promote the attachment of RNA polymerase to specific initiation sites and are then released. This sigma factor is involved in regulation of expression of heat shock genes. Intracellular concentration of free RpoH protein increases in response to heat shock, which causes association with RNA polymerase (RNAP) and initiation of transcription of heat shock genes, including numerous global transcriptional regulators and genes involved in maintaining membrane functionality and homeostasis. RpoH is then quickly degraded, leading to a decrease in the rate of synthesis of heat shock proteins and shut-off of the heat shock response.
|
|||||
TMPH-00531 | SSB Protein, Enterobacteria phage T7, Recombinant (His & SUMO) | Enterobacteria phage T7 | E. coli | ||
Single-stranded DNA-binding protein that participates in viral DNA replication, formation of concatemers, recombination and repair of double-stranded breaks. Coats the lagging-strand ssDNA as the replication fork advances and stimulates the activities of viral DNA polymerase and primase/helicase. Coordinates simultaneous synthesis of leading- and lagging-strands. Together with DNA primase/helicase, promotes pairing of two homologous DNA molecules containing complementary single-stranded regions and mediates homologous DNA strand exchange. Promotes also the formation of joint molecules. Disrupts loops, hairpins and other secondary structures present on ssDNA to reduce and eliminate pausing of viral DNA polymerase at specific sites during elongation.
|
|||||
TMPJ-01443 | HChFc2 Protein, Mouse, Recombinant (His) | Mouse | E. coli | ||
Host cell factor 2(HCFC2) is a cytoplasmic protein. It contains 2 fibronectin type-III domains.HCFC2 binds KMT2A/MLL1, as component of the MLL1/MLL complex.Hcfc2 negative regulation of transcription from RNA polymerase II promoter.
|
|||||
TMPY-02543 | PCNA Protein, Human, Recombinant (His) | Human | Baculovirus Insect Cells | ||
Proliferating Cell Nuclear Antigen (PCNA) is a protein only expressed in normal proliferate cells and cancer cells. It is central to both DNA replication and repair. One of the well-established functions for PCNA is its role as the processivity factor for DNA polymerase delta and epsilon. PCNA tethers the polymerase catalytic unit to the DNA template for rapid and processive DNA synthesis. Two forms of PCNA exist in cells: (i) a detergent-insoluble trimeric form stably associated with the replicating forks during S phase and (ii) a soluble form in quiescent cells in G1 and G2 phases. PCNA forms a toroidal trimer in S phase with replication factor-C (RF-C) and DNA in an ATP-dependent manner and enables the loading of DNA polymerase delta and epsilon onto the complex. The close association of PCNA with kinase complexes involved in cell cycle machinery indicates that PCNA has a regulatory role in cell cycle progression. PCNA also participates in the processing of branched intermediates that arise during the lagging strand DNA synthesis.
|
|||||
TMPH-00728 | FliA Protein, E. coli, Recombinant | E. coli | E. coli | ||
Sigma factors are initiation factors that promote the attachment of RNA polymerase to specific initiation sites and are then released. This sigma factor controls the expression of flagella-related genes. FliA Protein, E. coli, Recombinant is expressed in E. coli expression system. The predicted molecular weight is 27.7 kDa and the accession number is P0AEM6.
|
|||||
TMPH-00532 | SSB Protein, Enterobacteria phage T7, Recombinant | Enterobacteria phage T7 | P. pastoris (Yeast) | ||
Single-stranded DNA-binding protein that participates in viral DNA replication, formation of concatemers, recombination and repair of double-stranded breaks. Coats the lagging-strand ssDNA as the replication fork advances and stimulates the activities of viral DNA polymerase and primase/helicase. Coordinates simultaneous synthesis of leading- and lagging-strands. Together with DNA primase/helicase, promotes pairing of two homologous DNA molecules containing complementary single-stranded regions and mediates homologous DNA strand exchange. Promotes also the formation of joint molecules. Disrupts loops, hairpins and other secondary structures present on ssDNA to reduce and eliminate pausing of viral DNA polymerase at specific sites during elongation.
|
|||||
TMPH-01244 | POLM Protein, Human, Recombinant (His) | Human | E. coli | ||
Gap-filling polymerase involved in repair of DNA double-strand breaks by non-homologous end joining (NHEJ). Participates in immunoglobulin (Ig) light chain gene rearrangement in V(D)J recombination. POLM Protein, Human, Recombinant (His) is expressed in E. coli expression system with N-6xHis tag. The predicted molecular weight is 58.8 kDa and the accession number is Q9NP87.
|
|||||
TMPH-00094 | HSP21, chloroplastic Protein, Arabidopsis thaliana, Recombinant (His & Myc) | Arabidopsis thaliana | E. coli | ||
Chaperone protein required for seedling and chloroplast development under heat stress, probably by maintaining plastid-encoded RNA polymerase (PEP)-dependent transcription. HSP21, chloroplastic Protein, Arabidopsis thaliana, Recombinant (His & Myc) is expressed in E. coli expression system with N-10xHis and C-Myc tag. The predicted molecular weight is 28.4 kDa and the accession number is P31170.
|
|||||
TMPH-01245 | POLM Protein, Human, Recombinant (His & Myc) | Human | Baculovirus Insect Cells | ||
Gap-filling polymerase involved in repair of DNA double-strand breaks by non-homologous end joining (NHEJ). Participates in immunoglobulin (Ig) light chain gene rearrangement in V(D)J recombination. POLM Protein, Human, Recombinant (His & Myc) is expressed in Baculovirus insect cells with N-10xHis and C-Myc tag. The predicted molecular weight is 58.8 kDa and the accession number is Q9NP87.
|
|||||
TMPH-03184 | P2 Protein, Pseudomonas phage phi6, Recombinant (His & Myc) | Pseudomonas phage phi6 | E. coli | ||
Rna-dependent RNA polymerase part of the packaging complex that packages the viral RNA segments, replicate them into a double-stranded form and transcribe them. P2 Protein, Pseudomonas phage phi6, Recombinant (His & Myc) is expressed in E. coli expression system with N-10xHis and C-Myc tag. The predicted molecular weight is 27.2 kDa and the accession number is P11124.
|
|||||
TMPH-02380 | RPB5 Protein, Kluyveromyces marxianus, Recombinant (His) | Kluyveromyces marxianus | E. coli | ||
DNA-dependent RNA polymerase catalyzes the transcription of DNA into RNA using the four ribonucleoside triphosphates as substrates. Common component of RNA polymerases I, II and III which synthesize ribosomal RNA precursors, mRNA precursors and many functional non-coding RNAs, and small RNAs, such as 5S rRNA and tRNAs, respectively. Pol II is the central component of the basal RNA polymerase II transcription machinery. Pols are composed of mobile elements that move relative to each other. In Pol II, RPB5 is part of the lower jaw surrounding the central large cleft and thought to grab the incoming DNA template. Seems to be the major component in this process.
|
|||||
TMPY-04137 | ATP6V1F Protein, Human, Recombinant (GST) | Human | E. coli | ||
ATP6V1F encodes a component of vacuolar ATPase mediating acidification. The cDNA and the genomic sequences of ATP6V1F were cloned successfully for the first time from the Giant Panda (Ailuropoda melanoleuca) using reverse transcription polymerase chain reaction and touchdown-polymerase chain reaction, respectively. Topology prediction showed that there is one protein kinase C phosphorylation site, two Casein kinase II phosphorylation sites, and one N-myristoylation site in the ATP6V1F protein. Up-regulated expression of mammary tumor 8 kDa protein (MAT-8), complement component C1S (C1S), ferritin heavy chain (FTH1), peptidyl-prolyl cis-trans isomerase A (PPIA), RNA-binding protein regulatory subunit DJ-1 protein (DJ-1) and vacuolar ATP synthase subunit F (ATP6V1F) was determined in prostate carcinoma and confirmed by using quantitative real-time RT-PCR analyses.
|
|||||
TMPK-01342 | 3CLpro/3C-like Protease Protein (A191V), SARS-COV-2, Recombinant | SARS-CoV-2 | E. coli | ||
3CL protease, a viral cysteine proteinase, plays an important role in co-translational proteolytic processing of Coronavirus polyproteins. The 3CL protease cleaves as much as 11 sites in the replicase polyproteins and also releases the key replicative functions of polymerase and helicase. 3CLpro/3C-like Protease Protein (A191V), SARS-COV-2, Recombinant is expressed in E. coli expression system. The predicted molecular weight is 34.8kDa and the accession number is YP_009725301.1.
|
|||||
TMPH-01799 | Nucleolar transcription factor 1 Protein, Human, Recombinant (E. coli, His & SUMO) | Human | E. coli | ||
Recognizes the ribosomal RNA gene promoter and activates transcription mediated by RNA polymerase I through cooperative interactions with the transcription factor SL1/TIF-IB complex. It binds specifically to the upstream control element. Nucleolar transcription factor 1 Protein, Human, Recombinant (E. coli, His & SUMO) is expressed in E. coli expression system with N-6xHis-SUMO tag. The predicted molecular weight is 95.2 kDa and the accession number is P17480.
|
|||||
TMPK-01347 | 3CLpro/3C-like Protease Protein (E166A), SARS-COV-2, Recombinant | SARS-CoV-2 | E. coli | ||
3CL protease, a viral cysteine proteinase, plays an important role in co-translational proteolytic processing of Coronavirus polyproteins. The 3CL protease cleaves as much as 11 sites in the replicase polyproteins and also releases the key replicative functions of polymerase and helicase. 3CLpro/3C-like Protease Protein (E166A), SARS-COV-2, Recombinant is expressed in E. coli expression system. The predicted molecular weight is 34.4kDa and the accession number is YP_009725301.1.
|
|||||
TMPH-01798 | Nucleolar transcription factor 1 Protein, Human, Recombinant (Cell-Free, His & SUMO) | Human | E. coli | ||
Recognizes the ribosomal RNA gene promoter and activates transcription mediated by RNA polymerase I through cooperative interactions with the transcription factor SL1/TIF-IB complex. It binds specifically to the upstream control element. Nucleolar transcription factor 1 Protein, Human, Recombinant (Cell-Free, His & SUMO) is expressed in E. coli expression system with N-10xHis-SUMO tag. The predicted molecular weight is 107.9 kDa and the accession number is P17480.
|
|||||
TMPK-01344 | 3CLpro/3C-like Protease Protein (L167F), SARS-COV-2, Recombinant | SARS-CoV-2 | E. coli | ||
3CL protease, a viral cysteine proteinase, plays an important role in co-translational proteolytic processing of Coronavirus polyproteins. The 3CL protease cleaves as much as 11 sites in the replicase polyproteins and also releases the key replicative functions of polymerase and helicase. 3CLpro/3C-like Protease Protein (L167F), SARS-COV-2, Recombinant is expressed in E. coli expression system. The predicted molecular weight is 34.5kDa and the accession number is YP_009725301.1.
|
|||||
TMPH-03729 | Zaire ebolavirus (strain Kikwit-95) VP30 Protein (His) | ZEBOV | E. coli | ||
Multifunctional protein that acts as a viral transcriptional activator. Promotes read-through of an RNA hairpin in the NP open reading frame to enhance viral transcription. Mechanistically, nonphosphorylated VP30 hexamers form a ternary complex with the viral leader RNA. Clamps the RNA template and the complex VP35-polymerase L together, thereby increasing the polymerase affinity for the RNA template to increase transcription initiation despite the presence of RNA secondary structures. Assists also stop-start transcription at gene junctions to promote transcription of downstream genes. Interaction with NP plays a critical role in transcription initiation by recognizing the RNA stem loop. Interaction with host RBBP6 interferes with NP-VP30 interaction and inhibits viral RNA synthesis. Also acts as a suppressor of RNA silencing by interacting with host DICER1 and TARBP2/TRBP.
|
|||||
TMPK-01346 | 3CLpro/3C-like Protease Protein (L50F), SARS-COV-2, Recombinant | SARS-CoV-2 | E. coli | ||
3CL protease, a viral cysteine proteinase, plays an important role in co-translational proteolytic processing of Coronavirus polyproteins. The 3CL protease cleaves as much as 11 sites in the replicase polyproteins and also releases the key replicative functions of polymerase and helicase. 3CLpro/3C-like Protease Protein (L50F), SARS-COV-2, Recombinant is expressed in E. coli expression system. The predicted molecular weight is 33.8kDa and the accession number is YP_009725301.1.
|
|||||
TMPK-01339 | 3CLpro/3C-like Protease Protein (S144A), SARS-COV-2, Recombinant | SARS-CoV-2 | E. coli | ||
3CL protease, a viral cysteine proteinase, plays an important role in co-translational proteolytic processing of Coronavirus polyproteins. The 3CL protease cleaves as much as 11 sites in the replicase polyproteins and also releases the key replicative functions of polymerase and helicase. 3CLpro/3C-like Protease Protein (S144A), SARS-COV-2, Recombinant is expressed in E. coli expression system. The predicted molecular weight is 33.78 kDa and the accession number is YP_009725301.1.
|
|||||
TMPK-01336 | 3CLpro/3C-like Protease Protein (L50F, E166V), SARS-COV-2, Recombinant | SARS-CoV-2 | E. coli | ||
3CL protease, a viral cysteine proteinase, plays an important role in co-translational proteolytic processing of Coronavirus polyproteins. The 3CL protease cleaves as much as 11 sites in the replicase polyproteins and also releases the key replicative functions of polymerase and helicase. 3CLpro/3C-like Protease Protein (L50F, E166V), SARS-COV-2, Recombinant is expressed in E. coli expression system. The predicted molecular weight is 33.80 kDa and the accession number is YP_009725301.1.
|
|||||
TMPH-00561 | 30S ribosomal protein S4 Protein, E. coli, Recombinant (His) | E. coli | E. coli | ||
One of two assembly initiator proteins for the 30S subunit, it binds directly to 16S rRNA where it nucleates assembly of the body of the 30S subunit.; With S5 and S12 plays an important role in translational accuracy; many suppressors of streptomycin-dependent mutants of protein S12 are found in this protein, some but not all of which decrease translational accuracy (ram, ribosomal ambiguity mutations).; Plays a role in mRNA unwinding by the ribosome, possibly by forming part of a processivity clamp.; Protein S4 is also a translational repressor protein, it controls the translation of the alpha-operon (which codes for S13, S11, S4, RNA polymerase alpha subunit, and L17) by binding to its mRNA.; Also functions as a rho-dependent antiterminator of rRNA transcription, increasing the synthesis of rRNA under conditions of excess protein, allowing a more rapid return to homeostasis. Binds directly to RNA polymerase.; Part of the processive rRNA transcription and antitermination complex (rrnTAC). The complex forms an RNA-chaperone ring around the RNA exit tunnel of RNA polymerase (RNAP). It supports rapid transcription and antitermination of rRNA operons, cotranscriptional rRNA folding, and annealing of distal rRNA regions to allow correct ribosome biogenesis. This subunit may play a particular role in long-distance rRNA annealing needed for pre-rRNA processing.
|
|||||
TMPK-01348 | 3CLpro/3C-like Protease Protein, SARS-COV-2, Recombinant (aa 1-306) | SARS-CoV-2 | E. coli | ||
3CL protease, a viral cysteine proteinase, plays an important role in co-translational proteolytic processing of Coronavirus polyproteins. The 3CL protease cleaves as much as 11 sites in the replicase polyproteins and also releases the key replicative functions of polymerase and helicase. 3CLpro/3C-like Protease Protein, SARS-COV-2, Recombinant (aa 1-306) is expressed in E. coli expression system. The predicted molecular weight is 33.8 kDa and the accession number is YP_009725301.1.
|