Literature DB >> 15122013

Biosynthesis of the nitrile glucosides rhodiocyanoside A and D and the cyanogenic glucosides lotaustralin and linamarin in Lotus japonicus.

Karin Forslund1, Marc Morant, Bodil Jørgensen, Carl Erik Olsen, Erika Asamizu, Shusei Sato, Satoshi Tabata, Søren Bak.   

Abstract

Lotus japonicus was shown to contain the two nitrile glucosides rhodiocyanoside A and rhodiocyanoside D as well as the cyanogenic glucosides linamarin and lotaustralin. The content of cyanogenic and nitrile glucosides in L. japonicus depends on plant developmental stage and tissue. The cyanide potential is highest in young seedlings and in apical leaves of mature plants. Roots and seeds are acyanogenic. Biosynthetic studies using radioisotopes demonstrated that lotaustralin, rhodiocyanoside A, and rhodiocyanoside D are derived from the amino acid l-Ile, whereas linamarin is derived from Val. In silico homology searches identified two cytochromes P450 designated CYP79D3 and CYP79D4 in L. japonicus. The two cytochromes P450 are 94% identical at the amino acid level and both catalyze the conversion of Val and Ile to the corresponding aldoximes in biosynthesis of cyanogenic glucosides and nitrile glucosides in L. japonicus. CYP79D3 and CYP79D4 are differentially expressed. CYP79D3 is exclusively expressed in aerial parts and CYP79D4 in roots. Recombinantly expressed CYP79D3 and CYP79D4 in yeast cells showed higher catalytic efficiency with l-Ile as substrate than with l-Val, in agreement with lotaustralin and rhodiocyanoside A and D being the major cyanogenic and nitrile glucosides in L. japonicus. Ectopic expression of CYP79D2 from cassava (Manihot esculenta Crantz.) in L. japonicus resulted in a 5- to 20-fold increase of linamarin content, whereas the relative amounts of lotaustralin and rhodiocyanoside A/D were unaltered.

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Year:  2004        PMID: 15122013      PMCID: PMC429334          DOI: 10.1104/pp.103.038059

Source DB:  PubMed          Journal:  Plant Physiol        ISSN: 0032-0889            Impact factor:   8.340


  39 in total

1.  Cytochromes P-450 from cassava (Manihot esculenta Crantz) catalyzing the first steps in the biosynthesis of the cyanogenic glucosides linamarin and lotaustralin. Cloning, functional expression in Pichia pastoris, and substrate specificity of the isolated recombinant enzymes.

Authors:  M D Andersen; P K Busk; I Svendsen; B L Møller
Journal:  J Biol Chem       Date:  2000-01-21       Impact factor: 5.157

2.  Resistance to an herbivore through engineered cyanogenic glucoside synthesis.

Authors:  D B Tattersall; S Bak; P R Jones; C E Olsen; J K Nielsen; M L Hansen; P B Høj; B L Møller
Journal:  Science       Date:  2001-07-26       Impact factor: 47.728

3.  Photorespiratory NH(4)(+) production in leaves of wild-type and glutamine synthetase 2 antisense oilseed rape.

Authors:  Søren Husted; Marie Mattsson; Christian Möllers; Michael Wallbraun; Jan K Schjoerring
Journal:  Plant Physiol       Date:  2002-10       Impact factor: 8.340

4.  Mobilization and utilization of cyanogenic glycosides: the linustatin pathway.

Authors:  D Selmar; R Lieberei; B Biehl
Journal:  Plant Physiol       Date:  1988-03       Impact factor: 8.340

5.  Biosynthesis of cyanogenic glucosides in Triglochin maritima and the involvement of cytochrome P450 enzymes.

Authors:  J S Nielsen; B L Moller
Journal:  Arch Biochem Biophys       Date:  1999-08-01       Impact factor: 4.013

6.  Substrate specificity of the cytochrome P450 enzymes CYP79A1 and CYP71E1 involved in the biosynthesis of the cyanogenic glucoside dhurrin in Sorghum bicolor (L.) Moench.

Authors:  R A Kahn; T Fahrendorf; B A Halkier; B L Møller
Journal:  Arch Biochem Biophys       Date:  1999-03-01       Impact factor: 4.013

7.  Bioactive constituents of Chinese natural medicines. IV. Rhodiolae radix. (2).: On the histamine release inhibitors from the underground part of Rhodiola sacra (Prain ex Hamet) S. H. Fu (Crassulaceae): chemical structures of rhodiocyanoside D and sacranosides A and B.

Authors:  M Yoshikawa; H Shimada; S Horikawa; T Murakami; H Shimoda; J Yamahara; H Matsuda
Journal:  Chem Pharm Bull (Tokyo)       Date:  1997-09       Impact factor: 1.645

8.  Dhurrin synthesis in sorghum is regulated at the transcriptional level and induced by nitrogen fertilization in older plants.

Authors:  Peter Kamp Busk; Birger Lindberg Møller
Journal:  Plant Physiol       Date:  2002-07       Impact factor: 8.340

9.  Leucine-derived cyano glucosides in barley.

Authors:  Kirsten Annette Nielsen; Carl Erik Olsen; Katrine Pontoppidan; Birger Lindberg Møller
Journal:  Plant Physiol       Date:  2002-07       Impact factor: 8.340

Review 10.  Biosynthesis and metabolic engineering of glucosinolates.

Authors:  M D Mikkelsen; B L Petersen; C E Olsen; B A Halkier
Journal:  Amino Acids       Date:  2002       Impact factor: 3.520
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  27 in total

1.  Genetic screening identifies cyanogenesis-deficient mutants of Lotus japonicus and reveals enzymatic specificity in hydroxynitrile glucoside metabolism.

Authors:  Adam Takos; Daniela Lai; Lisbeth Mikkelsen; Maher Abou Hachem; Dale Shelton; Mohammed Saddik Motawia; Carl Erik Olsen; Trevor L Wang; Cathie Martin; Fred Rook
Journal:  Plant Cell       Date:  2010-05-07       Impact factor: 11.277

2.  The alkyl tert-butyl ether intermediate 2-hydroxyisobutyrate is degraded via a novel cobalamin-dependent mutase pathway.

Authors:  Thore Rohwerder; Uta Breuer; Dirk Benndorf; Ute Lechner; Roland H Müller
Journal:  Appl Environ Microbiol       Date:  2006-06       Impact factor: 4.792

3.  Biosynthesis of the cyanogenic glucosides linamarin and lotaustralin in cassava: isolation, biochemical characterization, and expression pattern of CYP71E7, the oxime-metabolizing cytochrome P450 enzyme.

Authors:  Kirsten Jørgensen; Anne Vinther Morant; Marc Morant; Niels Bjerg Jensen; Carl Erik Olsen; Rubini Kannangara; Mohammed Saddik Motawia; Birger Lindberg Møller; Søren Bak
Journal:  Plant Physiol       Date:  2010-11-02       Impact factor: 8.340

4.  Adaptive gains through repeated gene loss: parallel evolution of cyanogenesis polymorphisms in the genus Trifolium (Fabaceae).

Authors:  Kenneth M Olsen; Nicholas J Kooyers; Linda L Small
Journal:  Philos Trans R Soc Lond B Biol Sci       Date:  2014-08-05       Impact factor: 6.237

5.  Bacterial acyl-CoA mutase specifically catalyzes coenzyme B12-dependent isomerization of 2-hydroxyisobutyryl-CoA and (S)-3-hydroxybutyryl-CoA.

Authors:  Nadya Yaneva; Judith Schuster; Franziska Schäfer; Vera Lede; Denise Przybylski; Torsten Paproth; Hauke Harms; Roland H Müller; Thore Rohwerder
Journal:  J Biol Chem       Date:  2012-03-20       Impact factor: 5.157

Review 6.  Plant P450s as versatile drivers for evolution of species-specific chemical diversity.

Authors:  Björn Hamberger; Søren Bak
Journal:  Philos Trans R Soc Lond B Biol Sci       Date:  2013-01-06       Impact factor: 6.237

7.  Evidence on the molecular basis of the Ac/ac adaptive cyanogenesis polymorphism in white clover (Trifolium repens L).

Authors:  Kenneth M Olsen; Shih-Chung Hsu; Linda L Small
Journal:  Genetics       Date:  2008-05-05       Impact factor: 4.562

Review 8.  Biosynthesis of 2-hydroxyisobutyric acid (2-HIBA) from renewable carbon.

Authors:  Thore Rohwerder; Roland H Müller
Journal:  Microb Cell Fact       Date:  2010-02-25       Impact factor: 5.328

9.  Evolution of heteromeric nitrilase complexes in Poaceae with new functions in nitrile metabolism.

Authors:  Roland Jenrich; Inga Trompetter; Søren Bak; Carl Erik Olsen; Birger Lindberg Møller; Markus Piotrowski
Journal:  Proc Natl Acad Sci U S A       Date:  2007-11-14       Impact factor: 11.205

10.  The beta-glucosidases responsible for bioactivation of hydroxynitrile glucosides in Lotus japonicus.

Authors:  Anne Vinther Morant; Nanna Bjarnholt; Mads Emil Kragh; Christian Hauge Kjaergaard; Kirsten Jørgensen; Suzanne Michelle Paquette; Markus Piotrowski; Anne Imberty; Carl Erik Olsen; Birger Lindberg Møller; Søren Bak
Journal:  Plant Physiol       Date:  2008-05-08       Impact factor: 8.340
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