Biosynthetic precursors of fungal pyrrolizidines, the loline alkaloids

Blankenship JD; Houseknecht JB; Pal S; Bush LP; Grossman RB; Schardl CL

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Biosynthetic precursors of fungal pyrrolizidines, the loline alkaloids

机译：真菌吡咯并核苷的生物合成前体，Loline生物碱

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Loline alkaloids are saturated pyrrolizidines with a substituted 1-amino group and an oxygen bridge between C2 and C7, and are insecticidal metabolites of plant-symbiotic fungi (endophytes). Cultures of the enclophyte, Neotyphodium uncinatum, incorporated labeled L-proline and L-homoserine into the 1-aminopyrrolizidine, N-formylloline. The A-ring carbons C1-C3 and the N1 were derived from L-homoserine; the B-ring carbons C5-C8 and the ring nitrogen were derived from L-proline. Incorporation of both deuterium atoms from L-[4,4-H-2(2)]homoserine and feeding tests with labeled L-methionine indicated that L-homoserine incorporation was not achieved via aspartyl semialdehyde or S-adenosylmethionine, but probably involved a highly novel N-C bond-forming gamma-substitution reaction.

机译：脯氨酸生物碱是具有取代的1-氨基和C2和C7之间的氧桥的饱和吡咯烷核苷，是植物共生真菌（内生真菌）的杀虫代谢产物。包涵体的培养，将新标记的L-脯氨酸和L-高丝氨酸掺入1-氨基吡咯烷啶N-甲酰氯。 A环碳原子C1-C3和N1衍生自L-高丝氨酸; B环碳原子C5-C8和环氮均来自L-脯氨酸。 L- [4,4-H-2（2）]高丝氨酸中的两个氘原子的掺入和带有标记的L-蛋氨酸的进料试验表明，L-高丝氨酸不能通过天冬氨酰半醛或S-腺苷甲硫氨酸掺入，但可能涉及高度新颖的NC键形成伽马取代反应。

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《Chembiochem: A European journal of chemical biology 》 |2005年第6期| 共7页
作者
Blankenship JD; Houseknecht JB; Pal S; Bush LP; Grossman RB; Schardl CL;
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正文语种 eng
中图分类生物化学 ;
关键词
alkaloids; biosynthesis; natural products; nitrogen heterocycles; NMR spectroscopy; DNA CROSS-LINKING; NEOTYPHODIUM-UNCINATUM; GRASS-ENDOPHYTE;

机译：生物碱;生物合成;天然产物;氮杂环;核磁共振波谱;DNA交联;新乌贼碱;草-内生菌;

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1. Biosynthetic precursors of fungal pyrrolizidines, the loline alkaloids [J] . Blankenship JD, Houseknecht JB, Pal S, Chembiochem: A European journal of chemical biology . 2005 ,第6期

机译：真菌吡咯并核苷的生物合成前体，Loline生物碱
2. Influence of nitrogen fertilization on growth and loline alkaloid production of meadow fescue (Festuca pratensis) associated with the fungal symbiont Neotyphodium uncinatum. [J] . Bylin A. G., Hume D. E., Card S. D., Botany . 2014 ,第5期

机译：氮肥对与真菌共生真菌新tytyphodium uncinatum相关的草甸羊茅（Festuca pratensis）生长和Loline生物碱产量的影响。
3. Loline alkaloid production by fungal endophytes of Fescue species select for particular epiphytic bacterial microflora [J] . Elizabeth Roberts, Steven Lindow The ISME journal emultidisciplinary journal of microbial ecology . 2014 ,第2期

机译：羊茅的真菌内生菌产生的Loline生物碱选择特定的附生细菌菌群
4. BfR Risk Assessment of Alkaloids as Ingredients and Contaminants of Food: Quinine, Opium Alkaloids, and Senecio Pyrrolizidine Alkaloids [C] . Birgit Dusemund, Klaus-Erich Appel, Alfonso Lampen Symposium on Risk Assessment of Phytochemicals in Food: Novel Approaches . 2010

机译：BFR风险评估生物碱作为食品的成分和污染物：奎宁，鸦片生物碱和肠染料吡咯氨酸生物碱
5. Total synthesis of hapalindoles J and U, formal synthesis of haplaindole O, synthesis of the proposed biosynthetic precursor to hapalindole K and work towards the ambiguine family of alkaloids [D] . Rafferty, Ryan J. 2011

机译：卤代吲哚J和U的全合成，卤代吲哚O的正式合成，拟议的卤代吲哚K的生物合成前体的合成，并致力于生物碱歧义家族
6. Loline alkaloid production by fungal endophytes of Fescue species select for particular epiphytic bacterial microflora [O] . Elizabeth Roberts, Steven Lindow 2014

机译：羊茅的真菌内生菌产生的Loline生物碱选择特定的附生细菌菌群
7. Enzymes from fungal and plant origin required for chemical diversification of insecticidal loline alkaloids in grass-Epichloë symbiota. [O] . Juan Pan, Minakshi Bhardwaj, Padmaja Nagabhyru, 2014

机译：来自真菌和植物来源的酶需要化学多样化的草 - Epichloëcoseiota中的杀虫胆碱生物碱。

Biosynthetic precursors of fungal pyrrolizidines, the loline alkaloids

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