methionine salvage  (ATCC)


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    ATCC methionine salvage
    Methionine Salvage, supplied by ATCC, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    methionine salvage pathways  (ATCC)


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    ATCC methionine salvage pathways
    Methionine Salvage Pathways, supplied by ATCC, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    methionine salvage  (ATCC)


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    ATCC methionine salvage
    Salvage of S-adenosyl- l <t>-methionine</t> (SAM) utilization byproducts, 5-deoxy-pentose sugars, and 6-deoxy-hexose sugars in E. coli . ( A ) S -adenosyl- l -homocysteine (SAH), produced by methyltransferases, is recycled by the methionine cycle (a.k.a. active methyl cycle) ( , ). ( B and C ) The E. coli variation of the DHAP shunt. ( B ) For adenine salvage and detoxification of 5′-methylthioadenosine (MTA) and 5′-deoxyadenosine (5dAdo), all E. coli possess the multifunctional SAH/MTA/5dAdo nucleosidase (Pfs; a.k.a. MtnN) . ( C ) ExPEC strains possess the Pfs nucleosidase ( B ) and remainder of the DHAP shunt genes, which together compose a dual-purpose pathway for the conversion of 5′-deoxy-nucleosides in the form of MTA and 5dAdo or corresponding 5-deoxy-pentoses in the form of 5-deoxy- d -ribose and 5-methylthioribose, respectively, into the central carbon metabolite DHAP and acetaldehyde or (2-methylthio)acetaldehyde . ( D ) E. coli analogously metabolize 6-deoxy-hexose sugars in the form of l -fucose and l -rhamnose to DHAP and l -lactaldehyde. During anaerobic growth, l -lactaldehyde is primarily reduced to ( S )-1,2-propanediol as a terminal product, whereas during aerobic growth, it is primarily oxidized to l -lactate for carbon assimilation as pyruvate. Enzymes: Pfs (MtnN), SAH/MTA/5dAdo nucleosidase, E.C. 3.2.2.9; LuxS, S -ribosyl- l -homocysteine lyase, E.C. 4.4.1.21; MetH, methionine synthase, E.C. 2.1.1.13; MetE, methionine synthase, E.C. 2.1.1.4; MtnK, 5-methylthioribose/5-deoxyribose kinase, E.C. 2.7.1.100; MtnA, 5-methylthioribose-1-phosphate/5-deoxyribose-1-phosphate isomerase, E.C. 5.3.1.23; Ald2, 5-methylthioribulose-1-phosphate/5-deoxyribulose-1-phosphate aldolase, E.C. 4.1.2.62; ADH, alcohol dehydrogenase, E.C. 1.1.1.1 ; FucI, l -fucose isomerase, E.C. 5.3.1.25; FucK, l -fuculose kinase, E.C. 2.7.1.51; FucA, l -fuculose-1-phosphate aldolase, E.C. 4.1.2.17; RhaA, l -rhamnose isomerase, E.C. 5.3.1.14; RhaB, l -rhamnulose kinase, E.C. 2.7.1.5; RhaD, l -rhamnulose-1-phosphate aldolase, E.C. 4.1.2.19; FucO, ( S )−1,2 -propanediol oxidoreductase, E.C. 1.1.1.77; and AldA, l -lactaldehyde dehydrogenase, E.C. 1.2.1.22.
    Methionine Salvage, supplied by ATCC, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    1) Product Images from "Escherichia coli possessing the dihydroxyacetone phosphate shunt utilize 5′-deoxynucleosides for growth"

    Article Title: Escherichia coli possessing the dihydroxyacetone phosphate shunt utilize 5′-deoxynucleosides for growth

    Journal: Microbiology Spectrum

    doi: 10.1128/spectrum.03086-23

    Salvage of S-adenosyl- l -methionine (SAM) utilization byproducts, 5-deoxy-pentose sugars, and 6-deoxy-hexose sugars in E. coli . ( A ) S -adenosyl- l -homocysteine (SAH), produced by methyltransferases, is recycled by the methionine cycle (a.k.a. active methyl cycle) ( , ). ( B and C ) The E. coli variation of the DHAP shunt. ( B ) For adenine salvage and detoxification of 5′-methylthioadenosine (MTA) and 5′-deoxyadenosine (5dAdo), all E. coli possess the multifunctional SAH/MTA/5dAdo nucleosidase (Pfs; a.k.a. MtnN) . ( C ) ExPEC strains possess the Pfs nucleosidase ( B ) and remainder of the DHAP shunt genes, which together compose a dual-purpose pathway for the conversion of 5′-deoxy-nucleosides in the form of MTA and 5dAdo or corresponding 5-deoxy-pentoses in the form of 5-deoxy- d -ribose and 5-methylthioribose, respectively, into the central carbon metabolite DHAP and acetaldehyde or (2-methylthio)acetaldehyde . ( D ) E. coli analogously metabolize 6-deoxy-hexose sugars in the form of l -fucose and l -rhamnose to DHAP and l -lactaldehyde. During anaerobic growth, l -lactaldehyde is primarily reduced to ( S )-1,2-propanediol as a terminal product, whereas during aerobic growth, it is primarily oxidized to l -lactate for carbon assimilation as pyruvate. Enzymes: Pfs (MtnN), SAH/MTA/5dAdo nucleosidase, E.C. 3.2.2.9; LuxS, S -ribosyl- l -homocysteine lyase, E.C. 4.4.1.21; MetH, methionine synthase, E.C. 2.1.1.13; MetE, methionine synthase, E.C. 2.1.1.4; MtnK, 5-methylthioribose/5-deoxyribose kinase, E.C. 2.7.1.100; MtnA, 5-methylthioribose-1-phosphate/5-deoxyribose-1-phosphate isomerase, E.C. 5.3.1.23; Ald2, 5-methylthioribulose-1-phosphate/5-deoxyribulose-1-phosphate aldolase, E.C. 4.1.2.62; ADH, alcohol dehydrogenase, E.C. 1.1.1.1 ; FucI, l -fucose isomerase, E.C. 5.3.1.25; FucK, l -fuculose kinase, E.C. 2.7.1.51; FucA, l -fuculose-1-phosphate aldolase, E.C. 4.1.2.17; RhaA, l -rhamnose isomerase, E.C. 5.3.1.14; RhaB, l -rhamnulose kinase, E.C. 2.7.1.5; RhaD, l -rhamnulose-1-phosphate aldolase, E.C. 4.1.2.19; FucO, ( S )−1,2 -propanediol oxidoreductase, E.C. 1.1.1.77; and AldA, l -lactaldehyde dehydrogenase, E.C. 1.2.1.22.
    Figure Legend Snippet: Salvage of S-adenosyl- l -methionine (SAM) utilization byproducts, 5-deoxy-pentose sugars, and 6-deoxy-hexose sugars in E. coli . ( A ) S -adenosyl- l -homocysteine (SAH), produced by methyltransferases, is recycled by the methionine cycle (a.k.a. active methyl cycle) ( , ). ( B and C ) The E. coli variation of the DHAP shunt. ( B ) For adenine salvage and detoxification of 5′-methylthioadenosine (MTA) and 5′-deoxyadenosine (5dAdo), all E. coli possess the multifunctional SAH/MTA/5dAdo nucleosidase (Pfs; a.k.a. MtnN) . ( C ) ExPEC strains possess the Pfs nucleosidase ( B ) and remainder of the DHAP shunt genes, which together compose a dual-purpose pathway for the conversion of 5′-deoxy-nucleosides in the form of MTA and 5dAdo or corresponding 5-deoxy-pentoses in the form of 5-deoxy- d -ribose and 5-methylthioribose, respectively, into the central carbon metabolite DHAP and acetaldehyde or (2-methylthio)acetaldehyde . ( D ) E. coli analogously metabolize 6-deoxy-hexose sugars in the form of l -fucose and l -rhamnose to DHAP and l -lactaldehyde. During anaerobic growth, l -lactaldehyde is primarily reduced to ( S )-1,2-propanediol as a terminal product, whereas during aerobic growth, it is primarily oxidized to l -lactate for carbon assimilation as pyruvate. Enzymes: Pfs (MtnN), SAH/MTA/5dAdo nucleosidase, E.C. 3.2.2.9; LuxS, S -ribosyl- l -homocysteine lyase, E.C. 4.4.1.21; MetH, methionine synthase, E.C. 2.1.1.13; MetE, methionine synthase, E.C. 2.1.1.4; MtnK, 5-methylthioribose/5-deoxyribose kinase, E.C. 2.7.1.100; MtnA, 5-methylthioribose-1-phosphate/5-deoxyribose-1-phosphate isomerase, E.C. 5.3.1.23; Ald2, 5-methylthioribulose-1-phosphate/5-deoxyribulose-1-phosphate aldolase, E.C. 4.1.2.62; ADH, alcohol dehydrogenase, E.C. 1.1.1.1 ; FucI, l -fucose isomerase, E.C. 5.3.1.25; FucK, l -fuculose kinase, E.C. 2.7.1.51; FucA, l -fuculose-1-phosphate aldolase, E.C. 4.1.2.17; RhaA, l -rhamnose isomerase, E.C. 5.3.1.14; RhaB, l -rhamnulose kinase, E.C. 2.7.1.5; RhaD, l -rhamnulose-1-phosphate aldolase, E.C. 4.1.2.19; FucO, ( S )−1,2 -propanediol oxidoreductase, E.C. 1.1.1.77; and AldA, l -lactaldehyde dehydrogenase, E.C. 1.2.1.22.

    Techniques Used: Produced

    Sulfur from MTA cannot be salvaged by E. coli for growth. ( A ) ATCC 25922 maximum growth achieved after 24 hours measured by optical density at 600 nm when cultured with 1 mM of the indicated sulfur compound as the sole sulfur source. No further growth was observed after 24 hours. Average and standard deviation error bars are for n = 3 independent replicates. ( B ) Fold difference in the abundance of DHAP shunt-associated metabolites when ATCC 25922 was grown aerobically in the presence of 1 mM sulfate and 1 mM MTA versus grown aerobically in the presence of 1 mM sulfate only. Metabolites were resolved by LC-MS/MS from three independent biological replicates for each growth condition. Values are the average for the three replicates, and the significance of fold change was analyzed by ANOVA with P < 0.05. ( C ) Reverse-phase HPLC quantification of E. coli ATCC 25922 metabolites when fed aerobically with [ 14 C-methyl]−5′-methylthioadenosine. Unk, unknown (identified as 2-methylsulfinylethanol by LC-MS/MS, m / z = 109.0319), R T = 6.7 min; Met, methionine, R T = 8.0 min; MTR, methylthioribose, R T = 16.7 min; MT-EtOH, 2-methylthioethanol, R T = 21.7 min; IS, internal standard, R T = 24.0 min; and MTA, 5′-methylthioadenosine, R T = 31.8 min.
    Figure Legend Snippet: Sulfur from MTA cannot be salvaged by E. coli for growth. ( A ) ATCC 25922 maximum growth achieved after 24 hours measured by optical density at 600 nm when cultured with 1 mM of the indicated sulfur compound as the sole sulfur source. No further growth was observed after 24 hours. Average and standard deviation error bars are for n = 3 independent replicates. ( B ) Fold difference in the abundance of DHAP shunt-associated metabolites when ATCC 25922 was grown aerobically in the presence of 1 mM sulfate and 1 mM MTA versus grown aerobically in the presence of 1 mM sulfate only. Metabolites were resolved by LC-MS/MS from three independent biological replicates for each growth condition. Values are the average for the three replicates, and the significance of fold change was analyzed by ANOVA with P < 0.05. ( C ) Reverse-phase HPLC quantification of E. coli ATCC 25922 metabolites when fed aerobically with [ 14 C-methyl]−5′-methylthioadenosine. Unk, unknown (identified as 2-methylsulfinylethanol by LC-MS/MS, m / z = 109.0319), R T = 6.7 min; Met, methionine, R T = 8.0 min; MTR, methylthioribose, R T = 16.7 min; MT-EtOH, 2-methylthioethanol, R T = 21.7 min; IS, internal standard, R T = 24.0 min; and MTA, 5′-methylthioadenosine, R T = 31.8 min.

    Techniques Used: Cell Culture, Standard Deviation, Liquid Chromatography with Mass Spectroscopy

    methionine salvage pathways  (ATCC)


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    Structured Review

    ATCC methionine salvage pathways
    Salvage of S-adenosyl- l <t>-methionine</t> (SAM) utilization byproducts, 5-deoxy-pentose sugars, and 6-deoxy-hexose sugars in E. coli . ( A ) S -adenosyl- l -homocysteine (SAH), produced by methyltransferases, is recycled by the methionine cycle (a.k.a. active methyl cycle) ( , ). ( B and C ) The E. coli variation of the DHAP shunt. ( B ) For adenine salvage and detoxification of 5′-methylthioadenosine (MTA) and 5′-deoxyadenosine (5dAdo), all E. coli possess the multifunctional SAH/MTA/5dAdo nucleosidase (Pfs; a.k.a. MtnN) . ( C ) ExPEC strains possess the Pfs nucleosidase ( B ) and remainder of the DHAP shunt genes, which together compose a dual-purpose pathway for the conversion of 5′-deoxy-nucleosides in the form of MTA and 5dAdo or corresponding 5-deoxy-pentoses in the form of 5-deoxy- d -ribose and 5-methylthioribose, respectively, into the central carbon metabolite DHAP and acetaldehyde or (2-methylthio)acetaldehyde . ( D ) E. coli analogously metabolize 6-deoxy-hexose sugars in the form of l -fucose and l -rhamnose to DHAP and l -lactaldehyde. During anaerobic growth, l -lactaldehyde is primarily reduced to ( S )-1,2-propanediol as a terminal product, whereas during aerobic growth, it is primarily oxidized to l -lactate for carbon assimilation as pyruvate. Enzymes: Pfs (MtnN), SAH/MTA/5dAdo nucleosidase, E.C. 3.2.2.9; LuxS, S -ribosyl- l -homocysteine lyase, E.C. 4.4.1.21; MetH, methionine synthase, E.C. 2.1.1.13; MetE, methionine synthase, E.C. 2.1.1.4; MtnK, 5-methylthioribose/5-deoxyribose kinase, E.C. 2.7.1.100; MtnA, 5-methylthioribose-1-phosphate/5-deoxyribose-1-phosphate isomerase, E.C. 5.3.1.23; Ald2, 5-methylthioribulose-1-phosphate/5-deoxyribulose-1-phosphate aldolase, E.C. 4.1.2.62; ADH, alcohol dehydrogenase, E.C. 1.1.1.1 ; FucI, l -fucose isomerase, E.C. 5.3.1.25; FucK, l -fuculose kinase, E.C. 2.7.1.51; FucA, l -fuculose-1-phosphate aldolase, E.C. 4.1.2.17; RhaA, l -rhamnose isomerase, E.C. 5.3.1.14; RhaB, l -rhamnulose kinase, E.C. 2.7.1.5; RhaD, l -rhamnulose-1-phosphate aldolase, E.C. 4.1.2.19; FucO, ( S )−1,2 -propanediol oxidoreductase, E.C. 1.1.1.77; and AldA, l -lactaldehyde dehydrogenase, E.C. 1.2.1.22.
    Methionine Salvage Pathways, supplied by ATCC, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    1) Product Images from "Escherichia coli possessing the dihydroxyacetone phosphate shunt utilize 5′-deoxynucleosides for growth"

    Article Title: Escherichia coli possessing the dihydroxyacetone phosphate shunt utilize 5′-deoxynucleosides for growth

    Journal: Microbiology Spectrum

    doi: 10.1128/spectrum.03086-23

    Salvage of S-adenosyl- l -methionine (SAM) utilization byproducts, 5-deoxy-pentose sugars, and 6-deoxy-hexose sugars in E. coli . ( A ) S -adenosyl- l -homocysteine (SAH), produced by methyltransferases, is recycled by the methionine cycle (a.k.a. active methyl cycle) ( , ). ( B and C ) The E. coli variation of the DHAP shunt. ( B ) For adenine salvage and detoxification of 5′-methylthioadenosine (MTA) and 5′-deoxyadenosine (5dAdo), all E. coli possess the multifunctional SAH/MTA/5dAdo nucleosidase (Pfs; a.k.a. MtnN) . ( C ) ExPEC strains possess the Pfs nucleosidase ( B ) and remainder of the DHAP shunt genes, which together compose a dual-purpose pathway for the conversion of 5′-deoxy-nucleosides in the form of MTA and 5dAdo or corresponding 5-deoxy-pentoses in the form of 5-deoxy- d -ribose and 5-methylthioribose, respectively, into the central carbon metabolite DHAP and acetaldehyde or (2-methylthio)acetaldehyde . ( D ) E. coli analogously metabolize 6-deoxy-hexose sugars in the form of l -fucose and l -rhamnose to DHAP and l -lactaldehyde. During anaerobic growth, l -lactaldehyde is primarily reduced to ( S )-1,2-propanediol as a terminal product, whereas during aerobic growth, it is primarily oxidized to l -lactate for carbon assimilation as pyruvate. Enzymes: Pfs (MtnN), SAH/MTA/5dAdo nucleosidase, E.C. 3.2.2.9; LuxS, S -ribosyl- l -homocysteine lyase, E.C. 4.4.1.21; MetH, methionine synthase, E.C. 2.1.1.13; MetE, methionine synthase, E.C. 2.1.1.4; MtnK, 5-methylthioribose/5-deoxyribose kinase, E.C. 2.7.1.100; MtnA, 5-methylthioribose-1-phosphate/5-deoxyribose-1-phosphate isomerase, E.C. 5.3.1.23; Ald2, 5-methylthioribulose-1-phosphate/5-deoxyribulose-1-phosphate aldolase, E.C. 4.1.2.62; ADH, alcohol dehydrogenase, E.C. 1.1.1.1 ; FucI, l -fucose isomerase, E.C. 5.3.1.25; FucK, l -fuculose kinase, E.C. 2.7.1.51; FucA, l -fuculose-1-phosphate aldolase, E.C. 4.1.2.17; RhaA, l -rhamnose isomerase, E.C. 5.3.1.14; RhaB, l -rhamnulose kinase, E.C. 2.7.1.5; RhaD, l -rhamnulose-1-phosphate aldolase, E.C. 4.1.2.19; FucO, ( S )−1,2 -propanediol oxidoreductase, E.C. 1.1.1.77; and AldA, l -lactaldehyde dehydrogenase, E.C. 1.2.1.22.
    Figure Legend Snippet: Salvage of S-adenosyl- l -methionine (SAM) utilization byproducts, 5-deoxy-pentose sugars, and 6-deoxy-hexose sugars in E. coli . ( A ) S -adenosyl- l -homocysteine (SAH), produced by methyltransferases, is recycled by the methionine cycle (a.k.a. active methyl cycle) ( , ). ( B and C ) The E. coli variation of the DHAP shunt. ( B ) For adenine salvage and detoxification of 5′-methylthioadenosine (MTA) and 5′-deoxyadenosine (5dAdo), all E. coli possess the multifunctional SAH/MTA/5dAdo nucleosidase (Pfs; a.k.a. MtnN) . ( C ) ExPEC strains possess the Pfs nucleosidase ( B ) and remainder of the DHAP shunt genes, which together compose a dual-purpose pathway for the conversion of 5′-deoxy-nucleosides in the form of MTA and 5dAdo or corresponding 5-deoxy-pentoses in the form of 5-deoxy- d -ribose and 5-methylthioribose, respectively, into the central carbon metabolite DHAP and acetaldehyde or (2-methylthio)acetaldehyde . ( D ) E. coli analogously metabolize 6-deoxy-hexose sugars in the form of l -fucose and l -rhamnose to DHAP and l -lactaldehyde. During anaerobic growth, l -lactaldehyde is primarily reduced to ( S )-1,2-propanediol as a terminal product, whereas during aerobic growth, it is primarily oxidized to l -lactate for carbon assimilation as pyruvate. Enzymes: Pfs (MtnN), SAH/MTA/5dAdo nucleosidase, E.C. 3.2.2.9; LuxS, S -ribosyl- l -homocysteine lyase, E.C. 4.4.1.21; MetH, methionine synthase, E.C. 2.1.1.13; MetE, methionine synthase, E.C. 2.1.1.4; MtnK, 5-methylthioribose/5-deoxyribose kinase, E.C. 2.7.1.100; MtnA, 5-methylthioribose-1-phosphate/5-deoxyribose-1-phosphate isomerase, E.C. 5.3.1.23; Ald2, 5-methylthioribulose-1-phosphate/5-deoxyribulose-1-phosphate aldolase, E.C. 4.1.2.62; ADH, alcohol dehydrogenase, E.C. 1.1.1.1 ; FucI, l -fucose isomerase, E.C. 5.3.1.25; FucK, l -fuculose kinase, E.C. 2.7.1.51; FucA, l -fuculose-1-phosphate aldolase, E.C. 4.1.2.17; RhaA, l -rhamnose isomerase, E.C. 5.3.1.14; RhaB, l -rhamnulose kinase, E.C. 2.7.1.5; RhaD, l -rhamnulose-1-phosphate aldolase, E.C. 4.1.2.19; FucO, ( S )−1,2 -propanediol oxidoreductase, E.C. 1.1.1.77; and AldA, l -lactaldehyde dehydrogenase, E.C. 1.2.1.22.

    Techniques Used: Produced

    Sulfur from MTA cannot be salvaged by E. coli for growth. ( A ) ATCC 25922 maximum growth achieved after 24 hours measured by optical density at 600 nm when cultured with 1 mM of the indicated sulfur compound as the sole sulfur source. No further growth was observed after 24 hours. Average and standard deviation error bars are for n = 3 independent replicates. ( B ) Fold difference in the abundance of DHAP shunt-associated metabolites when ATCC 25922 was grown aerobically in the presence of 1 mM sulfate and 1 mM MTA versus grown aerobically in the presence of 1 mM sulfate only. Metabolites were resolved by LC-MS/MS from three independent biological replicates for each growth condition. Values are the average for the three replicates, and the significance of fold change was analyzed by ANOVA with P < 0.05. ( C ) Reverse-phase HPLC quantification of E. coli ATCC 25922 metabolites when fed aerobically with [ 14 C-methyl]−5′-methylthioadenosine. Unk, unknown (identified as 2-methylsulfinylethanol by LC-MS/MS, m / z = 109.0319), R T = 6.7 min; Met, methionine, R T = 8.0 min; MTR, methylthioribose, R T = 16.7 min; MT-EtOH, 2-methylthioethanol, R T = 21.7 min; IS, internal standard, R T = 24.0 min; and MTA, 5′-methylthioadenosine, R T = 31.8 min.
    Figure Legend Snippet: Sulfur from MTA cannot be salvaged by E. coli for growth. ( A ) ATCC 25922 maximum growth achieved after 24 hours measured by optical density at 600 nm when cultured with 1 mM of the indicated sulfur compound as the sole sulfur source. No further growth was observed after 24 hours. Average and standard deviation error bars are for n = 3 independent replicates. ( B ) Fold difference in the abundance of DHAP shunt-associated metabolites when ATCC 25922 was grown aerobically in the presence of 1 mM sulfate and 1 mM MTA versus grown aerobically in the presence of 1 mM sulfate only. Metabolites were resolved by LC-MS/MS from three independent biological replicates for each growth condition. Values are the average for the three replicates, and the significance of fold change was analyzed by ANOVA with P < 0.05. ( C ) Reverse-phase HPLC quantification of E. coli ATCC 25922 metabolites when fed aerobically with [ 14 C-methyl]−5′-methylthioadenosine. Unk, unknown (identified as 2-methylsulfinylethanol by LC-MS/MS, m / z = 109.0319), R T = 6.7 min; Met, methionine, R T = 8.0 min; MTR, methylthioribose, R T = 16.7 min; MT-EtOH, 2-methylthioethanol, R T = 21.7 min; IS, internal standard, R T = 24.0 min; and MTA, 5′-methylthioadenosine, R T = 31.8 min.

    Techniques Used: Cell Culture, Standard Deviation, Liquid Chromatography with Mass Spectroscopy

    methionine salvage  (ATCC)


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    ATCC methionine salvage
    Methionine Salvage, supplied by ATCC, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    methionine salvage pathway  (ATCC)


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    ATCC methionine salvage pathway
    Methionine Salvage Pathway, supplied by ATCC, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    ubiquitous methionine salvage pathway  (ATCC)


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    ATCC ubiquitous methionine salvage pathway
    Ubiquitous Methionine Salvage Pathway, supplied by ATCC, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    ubiquitous methionine salvage pathway - by Bioz Stars, 2024-06
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    methionine salvage pathway  (ATCC)


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    ATCC methionine salvage pathway
    Methionine Salvage Pathway, supplied by ATCC, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/methionine salvage pathway/product/ATCC
    Average 86 stars, based on 1 article reviews
    Price from $9.99 to $1999.99
    methionine salvage pathway - by Bioz Stars, 2024-06
    86/100 stars

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    methionine salvage pathway  (ATCC)


    Bioz Verified Symbol ATCC is a verified supplier
    Bioz Manufacturer Symbol ATCC manufactures this product  
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  • 86

    Structured Review

    ATCC methionine salvage pathway
    Methionine Salvage Pathway, supplied by ATCC, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/methionine salvage pathway/product/ATCC
    Average 86 stars, based on 1 article reviews
    Price from $9.99 to $1999.99
    methionine salvage pathway - by Bioz Stars, 2024-06
    86/100 stars

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    methionine salvage pathway  (ATCC)


    Bioz Verified Symbol ATCC is a verified supplier
    Bioz Manufacturer Symbol ATCC manufactures this product  
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  • 86

    Structured Review

    ATCC methionine salvage pathway
    Methionine Salvage Pathway, supplied by ATCC, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/methionine salvage pathway/product/ATCC
    Average 86 stars, based on 1 article reviews
    Price from $9.99 to $1999.99
    methionine salvage pathway - by Bioz Stars, 2024-06
    86/100 stars

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  • 86
    ATCC methionine salvage
    Methionine Salvage, supplied by ATCC, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/methionine salvage/product/ATCC
    Average 86 stars, based on 1 article reviews
    Price from $9.99 to $1999.99
    methionine salvage - by Bioz Stars, 2024-06
    86/100 stars
      Buy from Supplier

    86
    ATCC methionine salvage pathways
    Methionine Salvage Pathways, supplied by ATCC, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/methionine salvage pathways/product/ATCC
    Average 86 stars, based on 1 article reviews
    Price from $9.99 to $1999.99
    methionine salvage pathways - by Bioz Stars, 2024-06
    86/100 stars
      Buy from Supplier

    86
    ATCC methionine salvage pathway
    Methionine Salvage Pathway, supplied by ATCC, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/methionine salvage pathway/product/ATCC
    Average 86 stars, based on 1 article reviews
    Price from $9.99 to $1999.99
    methionine salvage pathway - by Bioz Stars, 2024-06
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    86
    ATCC ubiquitous methionine salvage pathway
    Ubiquitous Methionine Salvage Pathway, supplied by ATCC, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/ubiquitous methionine salvage pathway/product/ATCC
    Average 86 stars, based on 1 article reviews
    Price from $9.99 to $1999.99
    ubiquitous methionine salvage pathway - by Bioz Stars, 2024-06
    86/100 stars
      Buy from Supplier

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