D. B. Parihar scite author profile

Heating 5'-O-acetyl-2'-O-toluene-~-sulphonyluridine (I) with either sodium azide in methyl cyanide or sodium acetate in acetonylacetone affords 5'-0-acetyl-02 : 2'-cyclouridine (11; R = H, R' = Ac). The latter is converted into 5'-O-acetyl-2'-deoxy-2'-iodouridine (111) by sodium iodide in acetonylacetone containing glacial acetic acid ; the iodide (111) , also obtained directly from sulphonyl derivative (I) with sodium iodide, is now assigned the ribo-configuration.3' : 5'-Di-O-acetyl-0 : 2'-cycZouridine on acid hydrolysis gives both uridine and spongouridine, in contrast to O2 : 2'-cycZouridine which gives only the latter. The chemistry of the oxazolidine ring in cyclouridine derivatives is discussed and a possible pathway is suggested for the biochemical conversion of pyrimidine ribo-into deoxyribo-nucleosides.

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Changes in free nucleotides, nucleosides and bases during thermal processing of goat and sheep meats. Part I. Effect of temperature

Arya

Parihar

1979

Nahrung

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Effect of processing temperature on the changes in free nucleotides, nucleosides and bases in goat and sheep meats was investigated. The major changes in nucleotides and related compounds took place during first 30 min of heating and the rates of changes were maximum at 60 degrees C and minimum at 100 degrees C. At 120 degrees C, thermal degradation of inosinic acid proceeds at significant rates but below 100 degrees C major changes are brought about by phosphomonoesterases (5'-mononucleotidases) during initial stages of heating.

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616. Deoxynucleosides and related compounds. Part VII. The synthesis of 2′-deoxyuridine and of thymidine

Brown¹,

Parihar²,

Reese³

et al. 1958

J. Chem. Soc.

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By D. M. BROWN, D. B. PARIHAR, C. B. REESE, and SIR ALEXANDER TODD. 5'-O-Acetyl-2'-O-toluene-fi-sulphonyluridine reacts with sodium iodide in hot acetonylacetone, to give 5'-O-acetyl-2'-deoxy-2'-iodouridine from which by hydrogenation and deacetylation 2'-deoxyuridine is obtained. The same route starting from 5'-O-acetyl-3-P-~-ribofuranosylthymine leads to thymidine. The synthetic deoxyribonucleosides are identical with the naturally occurring compounds.

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615. Deoxynucleosides and related compounds. Part VI. The synthesis of 2-thiouridine and of 3′-deoxyuridine

Brown¹,

Parihar²,

Todd³

et al. 1958

J. Chem. Soc.

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By D. M. BROWN, D. B. PARIHAR, SIR ALEXANDER TODD, and S. VARADARAJAN.2' : 3'-O-isoPropylidene-O2 : 5'-cycZouridine and 2' : 3'-O-isopropylidene-5'-O-toluene-p-sulphonyluridine both react with sodium ethyl sulphide to give 5'-deoxy-5'-ethylthio-2' : 3'-O-isopropylideneuridine. The same reaction applied to O2 : 2'-cycZouridine affords 3'-deoxy-3'-ethylthiouridine from which 3'-deoxyuridine is obtained by treatment with Raney nickel.2' : 3'-O-isoPropylidene-0 * : 5'-cycZouridine with hydrogen sulphide and triethylamine gives 2' : 3'-O-isopropylidene-Z-thiouridine from which 2-thiouridine can be obtained. The thiolation reaction also affords polysulphides of the probable structure R-S,,-R where n = 1, 2, or 3, and R is an isopropylidene-2-deoxy-2-uridinyl residue.

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D. B. Parihar

Stability of carotenoids in dehydrated carrots

861. Deoxynucleosides and related compounds. Part VIII. Some further transformations of O²: 2′-cyclouridine

Changes in free nucleotides, nucleosides and bases during thermal processing of goat and sheep meats. Part I. Effect of temperature

616. Deoxynucleosides and related compounds. Part VII. The synthesis of 2′-deoxyuridine and of thymidine

615. Deoxynucleosides and related compounds. Part VI. The synthesis of 2-thiouridine and of 3′-deoxyuridine

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D. B. Parihar

Stability of carotenoids in dehydrated carrots

861. Deoxynucleosides and related compounds. Part VIII. Some further transformations of O2: 2′-cyclouridine

Changes in free nucleotides, nucleosides and bases during thermal processing of goat and sheep meats. Part I. Effect of temperature

616. Deoxynucleosides and related compounds. Part VII. The synthesis of 2′-deoxyuridine and of thymidine

615. Deoxynucleosides and related compounds. Part VI. The synthesis of 2-thiouridine and of 3′-deoxyuridine

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Product

Resources

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861. Deoxynucleosides and related compounds. Part VIII. Some further transformations of O²: 2′-cyclouridine