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Results for "

prokaryotes

" in MedChemExpress (MCE) Product Catalog:

15

Inhibitors & Agonists

2

Biochemical Assay Reagents

5

Natural
Products

1

Isotope-Labeled Compounds

Cat. No. Product Name Target Research Areas Chemical Structure
  • HY-E70025

    GlcNAc1pUT

    Others Others
    N-acetylglucosamine-1-P uridyltransferase (AGX1) (EC 2.3.1.157) (GlcNAc1pUT) is a bifunctional acetyltransferase/uridyltransferase. N-acetylglucosamine-1-P uridyltransferase (AGX1) binds GlcNAc-1-P and UTP, and catalyzes an uridyltransfer reaction to synthesize UDP-GlcNAc. N-acetylglucosamine-1-P uridyltransferase (AGX1) is a bifunctional enzyme exclusive to prokaryotes .
    N-Acetylglucosamine-1-P uridyltransferase, Homo sapien
  • HY-E70003

    Biochemical Assay Reagents Endocrinology
    Glutamate dehydrogenase is an enzyme in both prokaryotes and eukaryotic mitochondria. Glutamate dehydrogenase can be used for the enzymatic determination of ammonia, alpha-ketoglutaric acid, L-glutamate and urease .
    Glutamate dehydrogenase
  • HY-P1775A

    Carbonic Anhydrase Neurological Disease Metabolic Disease Cancer
    Carbonic anhydrase isoenzyme is the isoenzyme of Carbonic anhydrase (HY-P1775). Carbonic anhydrase isoenzyme is ubiquitous zinc-containing metalloenzyme present in prokaryotes and eukaryotes. Carbonic anhydrase isoenzyme catalyzes reversible conversion of carbon dioxide to bicarbonate and protons, and can be used for the research of cancer, glaucoma, obesity and epilepsy .
    Carbonic anhydrase (isoenzyme)
  • HY-P1775

    EC 4.2.1.1

    Carbonic Anhydrase Neurological Disease Metabolic Disease Cancer
    Carbonic anhydrase, Bovine erythrocytes (EC 4.2.1.1) is ubiquitous zinc-containing metalloenzyme present in prokaryotes and eukaryotes. Carbonic anhydrase can catalyze reversible conversion of carbon dioxide to bicarbonate and protons. Carbonic anhydrase can be used for the research of cancer, glaucoma, obesity and epilepsy .

    Carbonic anhydrase, Bovine erythrocytes
  • HY-P2972

    Endogenous Metabolite Others
    Sulfatase, Helix pomatia is a type I enzyme of prokaryotes and eukaryotes. Sulfatase, Helix pomatia is a sulfatase enzyme, is often used in biochemical studies .
    Sulfatase, Helix pomatia
  • HY-B2233B
    Phosphorylcholine
    4 Publications Verification

    Phosphocholine

    Endogenous Metabolite Cardiovascular Disease
    Phosphatidylcholine is the main phospholipid component in eukaryotic biofilms. Phosphatidylcholine exists in commensal or pathogenic bacteria associated with eukaryotes in prokaryotes. Phosphorylcholine exhibits a surprising range of immunomodulatory properties .
    Phosphorylcholine
  • HY-17561
    G-418 disulfate
    Maximum Cited Publications
    33 Publications Verification

    Geneticin sulfate; Antibiotic G-418 sulfate

    Bacterial Antibiotic Infection
    G-418 disulfate (Geneticin sulfate), is an aminoglycoside antibiotic, inhibits protein synthesis in eukaryotes and prokaryotes. G-418 disulfate is commonly used as a selective agent for eukaryotic cells .
    G-418 disulfate
  • HY-W008091
    5-Methylcytosine
    1 Publications Verification

    DNA/RNA Synthesis Endogenous Metabolite Others
    5-Methylcytosine is a well-characterized DNA modification, and is also predominantly in abundant non-coding RNAs in both prokaryotes and eukaryotes. 5-Methylcytosine in mRNA is a new epitranscriptome marker inArabidopsis, and that regulation of this modification is an integral part of gene regulatory networks underlying plant development .
    5-Methylcytosine
  • HY-P2907

    Endogenous Metabolite Others
    Formate dehydrogenase is an enzyme ubiquitous in prokaryotes and eukaryotes that catalyzes the reversible oxidation of formate to carbon dioxide. According to its metal content, structure and catalytic strategy, Formate dehydrogenase can be divided into two categories, non-metallic and metal-containing, which are often used in biochemical research .
    Formate dehydrogenase
  • HY-116887

    Endogenous Metabolite Nucleoside Antimetabolite/Analog DNA/RNA Synthesis Cancer
    N6-Methyladenine is a modified purine that is widely present in prokaryotes. In prokaryotes, N6-Methyladenine plays an important role in distinguishing host DNA from exogenous DNA and controls many biological functions, such as DNA replication, transcription, mismatch repair, and chromosome replication .
    N6-Methyladenine
  • HY-E70308

    Endogenous Metabolite Others
    Glucose isomerase is a glucose isomerase that catalyzes the reversible isomerization of D-glucose and D-xylose into D-fructose and D-xylulose, respectively. Glucose isomerase is thermally stable and can be used to produce fructose syrup at high temperatures above 90°C. Glucose isomerase is widely distributed in prokaryotes .
    Glucose isomerase
  • HY-N9923

    Others
    2-C-Methyl-D-erythritol 4-phosphate is a metabolite intermediate exclusive to the non-mevalonate MEP pathway, predominantly found in prokaryotes, serving as a precursor for the synthesis of isoprenoids and non-isoprenoids, including vitamins; its absence in humans makes it a promising target for the development of bacterium-specific drugs aimed at treating infectious diseases.
    2-C-Methyl-D-erythritol 4-phosphate
  • HY-W008091S

    DNA/RNA Synthesis Endogenous Metabolite Others
    5-Methylcytosine-d4 is the deuterium labeled 5-Methylcytosine[1]. 5-Methylcytosine is a well-characterized DNA modification, and is also predominantly in abundant non-coding RNAs in both prokaryotes and eukaryotes. 5-Methylcytosine in mRNA is a new epitranscriptome marker inArabidopsis, and that regulation of this modification is an integral part of gene regulatory networks underlying plant development[2].
    5-Methylcytosine-d4
  • HY-112747

    LPI; PE (soy)

    Phospholipase Infection
    Phosphatidylethanolamine is the most abundant phospholipid in prokaryotes and the second most abundant found in the membrane of mammalian, plant, and yeast cells, comprising approximately 25% of total mammalian phospholipids. In the brain, phosphatidylethanolamine comprises almost half of the total phospholipids. It is synthesized mainly through the cytidine diphosphate-ethanolamine and phosphatidylserine decarboxylation pathways, which occur in the endoplasmic reticulum (ER) and mitochondrial membranes, respectively. It is a precursor in the synthesis of phosphatidylcholine and arachidonoyl ethanolamide and is a source of ethanolamine used in various cellular functions. In E. coli, phosphatidylethanolamine deficiency prevents proper assembly of lactose permease, suggesting a role as a lipid chaperone. It is a cofactor in the propagation of prions in vitro and can convert recombinant mammalian proteins into infectious molecules even in the absence of RNA. This product contains phosphatidylethanolamine molecular species with variable fatty acyl chain lengths at the sn-1 and sn-2 positions.
    Soy PE
  • HY-W251428

    Egg PG

    Biochemical Assay Reagents Others
    Phosphatidylglycerol is a naturally occurring anionic phospholipid that is a component of plant, animal and bacterial cell membranes. It is present in prokaryotes and eukaryotes less than phosphatidylethanolamine, and in eukaryotes less than phosphatidylcholine. It is formed by the reaction between CDP-diglyceride and L-α-glycerol 3-phosphate followed by dephosphorylation and is the metabolic precursor of cardiolipin. Phosphatidylglycerols containing polyunsaturated and monounsaturated fatty acyl chains inhibit and promote the proliferation of murine keratinocytes, respectively. Phosphatidylglycerol is the second-largest lipid component of mammalian lung surfactant, accounting for 10% of lipids, and has reduced levels of pulmonary surfactant in infants with respiratory distress syndrome. Phosphatidylglycerol (egg) is a mixture of phosphatidylglycerols isolated from eggs with various fatty acyl groups at the sn-1 and sn-2 positions. References: [1]. Ohtsuka, T., Nishijima, M., and Akamatsu, Y. Phosphatidylglycerol phosphate synthase-deficient somatic mutants with impaired phosphatidylglycerol and cardiolipin biosynthesis J. Biol. Chemical. 268(30), 22908-22913 (1993).[2]. Furse, S. Are phosphatidylglycerols essential for terrestrial life J. Chemistry. biology. 10(1), 1-9 (2016).[3]. Xie, D., Seremwe, M., Edwards, JG, et al. Different effects of different phosphatidylglycerols on the proliferation of mouse keratinocytes PLoS One 9(9), e107119 (2014).
    Phosphatidylglycerols (egg) (sodium salt)

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