PubMedCrossRef 14 Lichtenthaler HK, Rohmer M, Schwender J: Two i

PubMedCrossRef 14. Lichtenthaler HK, Rohmer M, Schwender J: Two independent biochemical pathways for isopentenyl diphosphate and isoprenoid biosynthesis in higher plants. Physiol Plant 1997, 101:643–652.CrossRef 15. Aharoni A, Giri AP, Deuerlein S, Griepink F, de Kogel WJ, Verstappen FWA, Verhoeven HA, Jongsma MA, Schwab W, Bouwmeester HJ: Terpenoid metabolism in wildtype and transgenic arabidopsis plants. Plant Cell 2003, 15:2866–2884.PubMedCrossRef 16. Hampel D, Mosandl A, Wüst M: Biosynthesis of mono- and sesquiterpenes in carrot roots and leaves (Daucus carota L.): metabolic cross

talk of cytosolic mevalonate and plastidial methylerythritol phosphate pathways. Phytochemistry 2005, 66:305–311.PubMedCrossRef 17. Adams TB, Gavin CL, McGowen MM, Waddell WJ, Stem Cell Compound Library purchase Cohen SM, Feron VJ, Marnett LJ, Munro IC, Portoghese PS, Rietjens IMCM, Smith RL: The FEMA GRAS

assessment of aliphatic and aromatic terpene hydrocarbons used as flavor ingredients. Food Chem Toxicol 2011, 49:2471–2494.PubMedCrossRef 18. Chen W, Viljoen AM: Geraniol – a review of a commercially important fragrance material. S Afr J Bot 2010, 76:643–651.CrossRef 19. Dhavalikar RS, Rangachari PN, Bhattacharyya PK: Microbiological transformations of terpenes. IX. Pathways of degradation of limonene in a soil pseudomonad. Indian J Biochem 1966, 3:158–164.PubMed 20. Seubert W: Degradation of isoprenoid compounds by microorganisms 1. Isolation and characterization of an isoprenoid-degrading bacterium, pseudomonas citronellolis n. sp. J Bacteriol 1960, 79:426–434.PubMed 21. Shukla OP, Bhattacharyya PK: Microbiological transformation of terpenes. XI. Pathways of degradation PLX4032 nmr of α- and β-pinenes in a soil pseudomonad (PL-strain). Ind J Biochem 1968, 5:92–101. 22. Cantwell SG, Lau EP, Watt DS, Fall R: Biodegradation of acyclic

isoprenoids by pseudomonas species. J Bacteriol 1978, 135:324–333.PubMed 23. Förster-Fromme K, Höschle B, Mack C, Bott M, Armbruster W, Jendrossek D: Identification of genes and proteins necessary for catabolism of acyclic terpenes and leucine/isovalerate in pseudomonas aeruginosa. Appl Environ Microbiol 2006, 72:4819–4828.PubMedCrossRef 24. Iurescia S, Marconi M, Tofani D, Gambacorta A, Paterno A, Devirgiliis Baf-A1 manufacturer C, van der Werf M, Zennaro E: Identification and sequencing of β-myrcene catabolism genes from pseudomonas sp. strain M1. Appl Environ Microbiol 1999, 65:2871–2876.PubMed 25. Madyastha KM, Bhattacharyya PK, Vajdyanathan CS: Metabolism of a monoterpene alcohol, linalool, by a soil pseudomonad. Can J Microbiol 1977, 23:230–239.PubMedCrossRef 26. Prakash O, Kumari K, Lal R: Pseudomonas delhiensis sp. nov., from a fly ash dumping site of a thermal power plant. Int J Syst Evol Microbiol 2007, 57:527–531.PubMedCrossRef 27. Tudroszen NJ, Kelly DP, Millis NF: α-Pinene metabolism by pseudomonas putida. Biochem J 1977, 168:315–318.PubMed 28. Vandenbergh PA, Wright AM: Plasmid involvement in acyclic isoprenoid metabolism by pseudomonas putida.

Related posts:

  1. Gastroenterology 2005, 128:1229–1242 PubMedCrossRef 11 Torres LE
  2. Periodontol 2006, 42:80–87 CrossRef 8 Zijnge V, Ammann T, Thurnh
  3. The quality of each branch is calculated using the bootstrap test
  4. PubMed 14 Zinser ER, Lindell D, Johnson ZI, Futschik ME, Steglic
  5. This

    results in damage to DNA, membranes and proteins, an
This entry was posted in Antibody. Bookmark the permalink.

Leave a Reply

Your email address will not be published. Required fields are marked *

*

You may use these HTML tags and attributes: <a href="" title=""> <abbr title=""> <acronym title=""> <b> <blockquote cite=""> <cite> <code> <del datetime=""> <em> <i> <q cite=""> <strike> <strong>