子分类:
- C12Y103/99001: ..琥珀酸脱氢酶(1.3.99.1)
- C12Y103/99002: ..丁酰-辅酶A脱氢酶(1.3.99.2),即短链酰基-辅酶A脱氢酶
- C12Y103/99003: ..酰基-辅酶A脱氢酶(1.3.99.3)(C12Y103/08007, C12Y103/08008和C12Y103/08009优先)
- C12Y103/99004: ..3-氧代类固醇1-脱氢酶(1.3.99.4)
- C12Y103/99005: ..3-氧代-5α-类固醇4-脱氢酶(1.3.99.5),即类固醇-5α-还原酶
- C12Y103/99006: ..3-氧代-5-β-类固醇-4-脱氢酶(1.3.99.6)
- C12Y103/99007: ..戊二酰-辅酶A脱氢酶(1.3.99.7)
- C12Y103/99008: ..2-呋喃甲酰基-辅酶A脱氢酶(1.3.99.8)
- C12Y103/9901: ..异戊酰-辅酶A脱氢酶(1.3.99.10)
- C12Y103/99012: ..2-甲基酰基-辅酶A脱氢酶(1.3.99.12)
- C12Y103/99013: ..长链酰基-辅酶A脱氢酶(1.3.99.13)
- C12Y103/99014: ..环己酮脱氢酶(1.3.99.14)
- C12Y103/99016: ..异喹啉-1-氧化还原酶(1.3.99.16)
- C12Y103/99017: ..喹啉-2-氧化还原酶(1.3.99.17)
- C12Y103/99018: ..喹哪啶酸4-氧化还原酶(1.3.99.18)
- C12Y103/99019: ..喹啉-4-羧酸2-氧化还原酶(1.3.99.19)
- C12Y103/99021: ..(R)-苄基琥珀酰-辅酶A脱氢酶(1.3.99.21)
- C12Y103/99022: ..粪卟啉原脱氢酶(1.3.99.22)
- C12Y103/99023: ..全反式-视黄醇13,14-还原酶(1.3.99.23)
- C12Y103/99024: ..2-氨基-4-脱氧分支酸脱氢酶(1.3.99.24)
- C12Y103/99025: ..香芹酮还原酶(1.3.99.25)
- C12Y103/99026: ..全反式-ζ-胡萝卜素脱氢酶(1.3.99.26)
- C12Y103/99027: ..1-羟基类胡罗卜素3,4-去饱和酶(1.3.99.27)
- C12Y103/99028: ..八氢番茄红素脱氢酶(链孢红素形成)(1.3.99.28)
- C12Y103/99029: ..八氢番茄红素脱氢酶(ζ-胡萝卜素形成)(1.3.99.29)
- C12Y103/9903: ..八氢番茄红素脱氢酶(3,4-二脱氢番茄红素形成)(1.3.99.30)
- C12Y103/99031: ..八氢番茄红素脱氢酶(番茄红素形成)(1.3.99.31)
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 用于生物合成异丁烯酸盐的方法 | CN201480053694.3 | 2014-08-28 | CN105705650A | 2016-06-22 | A.L.博特斯; A.V.E.康拉迪 |
| 本文件描述了使用酶(诸如一种或多种硫酯酶、转移酶或脱氢酶)以及表达一种或多种此类酶的重组宿主经由异丁醛和异丁酰基-CoA从前体(诸如丙酮酸)生成异丁烯酸盐的生物化学途径。 | ||||||
| 2 | 产生有气味物质的地衣芽孢杆菌新基因产物以及在其基础上改进的生物技术生产方法 | CN200580021803.4 | 2005-06-17 | CN101356266A | 2009-01-28 | 科尼利厄斯·贝斯勒; 约尔格·费舍; 斯特凡·埃弗斯; 卡尔-海因茨·毛雷尔; 阿尔明·埃伦赖希; 比吉特·法伊特; 海科·利泽冈; 安克·亨纳; 克里斯蒂娜·赫茨伯格; 格哈德·戈特沙尔克 |
| 本发明涉及25个以前没有描述过的地衣芽孢杆菌基因和从它们衍生的基因产物,以及所有与它们具有足够的同源性的核酸和蛋白。它们在5个不同的代谢途径中参与有气味物质的形成。所指的代谢途径用于合成:1)异戊酸(作为亮氨酸代谢的一部分),2)2-甲基丁酸和/或异丁酸(作为缬氨酸和/或异亮氨酸代谢的一部分),3)丁醇和/或丁酸(作为丁酸代谢的一部分),4)丙酸(作为丙酸代谢的一部分)和/或5)尸胺和/或腐胺(作为赖氨酸和/或精氨酸代谢的一部分)。这些基因的鉴定使得可以开发出改进的生物技术生产方法,在这些核酸的帮助下,通过对用于生物技术生产的微生物中相应的基因进行失活,使经由这些代谢途径合成的有气味物质的形成得以减少。此外,根据它们各自生物化学性质,这些基因产物可以用于制备反应或方法。 | ||||||
| 3 | メタクリル酸及び/又はそのエステルの製造方法 | JP2013546110 | 2013-09-10 | JPWO2014038216A1 | 2016-08-08 | 佐藤 栄治; 栄治 佐藤; 倫子 山崎; 永二 中島; 不二夫 湯; 敏男 藤田; 渉 水無 |
| 再生可能原料及び/又は該再生可能原料の利用から生じるバイオマスから、直接的に単一工程で効率的にメタクリル酸を生産する方法の提供。炭素源及び/又はエネルギー源としての、再生可能原料及び/又は該再生可能原料の利用から生じるバイオマスから、メタクリル酸生成能を有する微生物を用いてメタクリル酸を製造する方法を提供する。このメタクリル酸の製造方法によれば、メタクリル酸生成能を有する微生物を利用することで、石油由来の原料を使用することなく、バイオマスから安全かつ簡便にメタクリル酸を生産することができる。 | ||||||
| 4 | COMPOSITIONS AND METHODS OF BIOSYNTHESIZING XANTHOPHYLLS | US15694443 | 2017-09-01 | US20180105839A1 | 2018-04-19 | Yechun Wang |
| The present invention relates to compositions and methods of producing xanthophylls in microorganisms. | ||||||
| 5 | METHODS FOR BIOSYNTHESIZING METHACRYLATE | US15051989 | 2016-02-24 | US20160237461A1 | 2016-08-18 | Adriana Leonora Botes; Alex Van Eck Conradie |
| This document describes biochemical pathways for producing methacrylate from precursors such as pyruvate via isobutyraldehyde and isobutyryl-CoA, using enzymes such as one or more thioesterases, transferases, or dehydrogenases, as well as recombinant hosts expressing one or more of such enzymes. | ||||||
| 6 | Gene products of Bacillus licheniformis which form odorous substances and improved biotechnological production methods based thereon | US11616319 | 2006-12-27 | US09394528B2 | 2016-07-19 | Cornelius Bessler; Jörg Feesche; Stefan Evers; Karl-Heinz Maurer; Armin Ehrenreich; Birgit Veith; Heiko Liesegang; Anke Henne; Christina Herzberg; Gerhard Gottschalk |
| The present invention relates to 25 hitherto undescribed genes of B. licheniformis and gene products derived therefrom and all sufficiently homologous nucleic acids and proteins thereof. They occur in five different metabolic pathways for the formation of odorous substances. The metabolic pathways in question are for the synthesis of: 1) isovalerian acid (as part of the catabolism of leucine), 2) 2-methylbutyric acid and/or isobutyric acid (as part of the catabolism of valine and/or isoleucine), 3) butanol and/or butyric acid (as part of the metabolism of butyric acid), 4) propyl acid (as part of the metabolism of propionate) and/or 5) cadaverine and/or putrescine (as parts of the catabolism of lysine and/or arginine). The identification of these genes allows biotechnological production methods to be developed that are improved to the extent that, to assist these nucleic acids, the formation of the odorous substances synthesized via these metabolic pathways can be reduced by deactivating the corresponding genes in the micro-organism used for the biotechnological production. In addition, these gene products are thus available for preparing reactions or for methods according to their respective biochemical properties. | ||||||
| 7 | PRODUCTION OF FATTY ALCOHOLS FROM ENGINEERED MICROORGANISMS | US14415665 | 2013-07-19 | US20150176040A1 | 2015-06-25 | Jonathan Vroom; Svetlana Balatskaya; Yoram Barak; Louis Clark; Trish Choudhary; Kristian Karlshoej; Fernando Valle; Kaman Chan |
| Recombinant microorganisms are provided which have been engineered to produce fatty alcohols. Also provided are recombinant microorganisms which comprise a heterologous polynucleotide encoding a fatty alcohol reductase enzyme and an introduced polynucleotide encoding a β-ketoacyl acyl carrier protein synthase. | ||||||
| 8 | COMPOSITIONS AND METHODS OF BIOSYNTHESIZING CAROTENOIDS AND THEIR DERIVATIVES | US15560951 | 2016-03-23 | US20180080031A1 | 2018-03-22 | Yechun WANG |
| The present invention relates to compositions and methods of producing carotenoids and carotenoid derivatives. | ||||||
| 9 | METHODS FOR BIOSYNTHESIZING METHACRYLATE | US14914113 | 2014-08-28 | US20160201094A1 | 2016-07-14 | Adriana Leonora Botes; Alex Van Eck Conradie |
| This document describes biochemical pathways for producing methacrylate from precursors such as pyruvate via isobutyraldehyde and isobutyryl-CoA, using enzymes such as one or more thioesterases, transferases, or dehydrogenases, as well as recombinant hosts expressing one or more of such enzymes. | ||||||
| 10 | METHOD FOR PRODUCING METHACRYLIC ACID AND/OR ESTER THEREOF | US14419575 | 2013-09-10 | US20150191756A1 | 2015-07-09 | Eiji Sato; Michiko Yamazaki; Eiji Nakajima; Fujio Yu; Toshio Fujita; Wataru Mizunashi |
| To provide a method for directly and efficiently producing methacrylic acid in a single step from renewable raw materials and/or biomass arising from the utilization of the renewable raw materials. Further provided is a method for producing methacrylic acid using microbes having the ability to produce methacrylic acid, from renewable raw materials and/or biomass arising from the utilization of the renewable raw materials, as a carbon source and/or energy source. The method for producing methacrylic acid enables methacrylic acid to be safely and easily produced from biomass, without using petroleum-derived raw materials, by utilizing microbes having the ability to produce methacrylic acid. | ||||||
| 11 | メタクリル酸及び/又はそのエステルの製造方法 | JP2013546110 | 2013-09-10 | JP6197648B2 | 2017-09-20 | 佐藤 栄治; 山崎 倫子; 中島 永二; 湯 不二夫; 藤田 敏男; 水無 渉 |
| 12 | Novel Bacillus licheniformis gene product and improved biotechnological production method based on it to produce an odor substance | JP2007519651 | 2005-06-17 | JP2008504829A | 2008-02-21 | アルミン・エーレンライヒ; アンケ・ヘンネ; イエルク・フェーシェ; カール−ハインツ・マウラー; クリスティーナ・ヘルツベルク; ゲルハルト・ゴットシャルク; コルネリウス・ベスラー; シュテファン・エーフェルス; ハイコ・リーゼガング; ビルギット・ファイト |
| 本発明は、今までに記述されていない25種のバシラス・リケニホルミス遺伝子およびそれらから派生する遺伝子産物、ならびにその十分に相同的なすべての核酸およびタンパク質に関する。 これらは、臭気物質を生成する5種類の異なる代謝経路に存在する。 目的とする代謝経路は、1)イソ吉草酸(ロイシン異化の一部として)、2)2−メチル酪酸および/またはイソ酪酸(バリンおよび/またはイソロイシン異化の一部として)、3)ブタノールおよび/または酪酸(酪酸代謝の一部として)、4)プロピル酸(プロピオン酸代謝の一部として)、および/または5)カダベリンおよび/またはプトレシン(リジンおよび/またはアルギニン異化の一部として)の合成のためのものである。 これらの遺伝子を同定して、これらの核酸の助けを借りると、生物工学的な生産に使用される微生物中の対応する遺伝子を不活性化することで、改良された生物工学的生産法の開発が、これらの代謝経路によって合成される臭気物質の生成を低減できる程度まで可能になる。 さらに、これらの遺伝子産物はしたがって、反応物の調製またはそのそれぞれの生化学的性質に従う方法に利用できる。 | ||||||
| 13 | BIOCONVERSION OF SHORT-CHAIN HYDROCARBONS TO FUELS AND CHEMICALS | US15562606 | 2016-03-31 | US20180355394A1 | 2018-12-13 | Ramon Gonzales |
| An engineered microorganism(s) with novel pathways for the conversion of short-chain hydrocarbons to fuels and chemicals (e.g. carboxylic acids, alcohols, hydrocarbons, and their alpha-, beta-, and omega-functionalized derivatives) is described. Key to this approach is the use of hydrocarbon activation enzymes able to overcome the high stability and low reactivity of hydrocarbon compounds through the cleavage of an inert C—H bond. Oxygen-dependent or oxygen-independent activation enzymes can be exploited for this purpose, which when combined with appropriate pathways for the conversion of activated hydrocarbons to key metabolic intermediates, enables the generation of product precursors that can subsequently be converted to desired compounds through established pathways. These novel engineered microorganism(s) provide a route for the production of fuels and chemicals from short chain hydrocarbons such as methane, ethane, propane, butane, and pentane. | ||||||
| 14 | Production of fatty alcohols from engineered microorganisms | US14415665 | 2013-07-19 | US09650655B2 | 2017-05-16 | Jonathan Vroom; Svetlana Balatskaya; Yoram Barak; Louis Clark; Trish Choudhary; Kristian Karlshoej; Fernando Valle; Kaman Chan |
| Recombinant microorganisms are provided which have been engineered to produce fatty alcohols. Also provided are recombinant microorganisms which comprise a heterologous polynucleotide encoding a fatty alcohol reductase enzyme and an introduced polynucleotide encoding a β-ketoacyl acyl carrier protein synthase. | ||||||
| 15 | Gene Products of Bacillus Licheniformis Which Form Odorous Substances and Improved Biotechnological Production Methods Based Thereon | US15182839 | 2016-06-15 | US20170067064A1 | 2017-03-09 | Cornelius Bessler; Jorg Feesche; Stefan Evers; Karl-Heinz Maurer; Armin Ehrenreich; Birgit Veith; Heiko Liesegang; Anke Henne; Christina Herzberg; Gerhard Gottschalk |
| The present invention relates to 25 hitherto undescribed genes of B. licheniformis and gene products derived thereform and all sufficiently homologous nucleic acids and proteins thereof. They occur in five different metabolic pathways for the formation of odorous substances. The metabolic pathways in question are for the synthesis of: 1) isovalerian acid (as part of the catabolism of leucine), 2) 2-methylbutyric acid and/or isobutyric acid (as part of the catabolism of valine and/or isoleucine), 3) butanol and/or butyric acid (as part of the metabolism of butyric acid), 4) propyl acid (as part of the metabolism of propionate) and/or 5) cadaverine and/or putrescine (as parts of the catabolism of lysine and/or arginine). The identification of these genes allows biotechnological production methods to be developed that are improved to the extent that, to assist these nucleic acids, the formation of the odorous substances synthesised via these metabolic pathways can be reduced by deactivating the corresponding genes in the micro-organism used for the biotechnological production. In addition, these gene products are thus available for preparing reactions or for methods according to their respective biochemical properties. | ||||||
| 16 | Methods for Recombinant Production of Saffron Compounds | US15123198 | 2015-03-06 | US20170067063A1 | 2017-03-09 | A.S. Sathish Kumar |
| Recombinant microorganisms and methods for producing saffron compounds including crocetin, crocetin dialdehyde, crocin or picrocrocin are disclosed herein. | ||||||
| 17 | GENES PROVIDING TOLERANCE TO PDS INHIBITORS | US14169370 | 2014-01-31 | US20140342913A1 | 2014-11-20 | Quideng Que; John Luther Dawson; Zhongying Chen |
| The present invention relates to DNA molecules encoding a PDS inhibitor tolerant phytoene desaturease enzymes as well as constructs and plants comprising said enzymes. Also included are methods of using said enzymes, including use as a selectable marker, use to make transgenic plants resistant to PDS inhibitor herbicides and methods of controlling weeds. | ||||||
| 18 | GENE PRODUCTS OF BACILLUS LICHENIFORMIS WHICH FORM ODOROUS SUBSTANCES AND IMPROVED BIOTECHNOLOGICAL PRODUCTION METHODS BASED THEREON | US11616319 | 2006-12-27 | US20070190605A1 | 2007-08-16 | Cornelius Bessler; Jorg Feesche; Stefan Evers; Karl-Heinz Maurer; Armin Ehrenreich; Birgit Veith; Heiko Liesegang; Anke Henne; Christina Herzberg; Gerhard Gottschalk |
| The present invention relates to 25 hitherto undescribed genes of B. licheniformis and gene products derived therefrom and all sufficiently homologous nucleic acids and proteins thereof. They occur in five different metabolic pathways for the formation of odorous substances. The metabolic pathways in question are for the synthesis of: 1) isovalerian acid (as part of the catabolism of leucine), 2) 2-methylbutyric acid and/or isobutyric acid (as part of the catabolism of valine and/or isoleucine), 3) butanol and/or butyric acid (as part of the metabolism of butyric acid), 4) propyl acid (as part of the metabolism of propionate) and/or 5) cadaverine and/or putrescine (as parts of the catabolism of lysine and/or arginine). The identification of these genes allows biotechnological production methods to be developed that are improved to the extent that, to assist these nucleic acids, the formation of the odorous substances synthesized via these metabolic pathways can be reduced by deactivating the corresponding genes in the micro-organism used for the biotechnological production. In addition, these gene products are thus available for preparing reactions or for methods according to their respective biochemical properties. | ||||||
| 19 | METHODS FOR BIOSYNTHESIZING METHACRYLATE | EP14766071.6 | 2014-08-28 | EP3039151A2 | 2016-07-06 | BOTES, Adriana Leonora; CONRADIE, Alex Van Eck |
| This document describes biochemical pathways for producing methacrylate from precursors such as pyruvate via isobutyraldehyde and isobutyryl-CoA, using enzymes such as one or more thioesterases, transferases, or dehydrogenases, as well as recombinant hosts expressing one or more of such enzymes. | ||||||
| 20 | Neue, Geruchsstoffe bildende Genprodukte von Bacillus licheniformis und darauf aufbauende verbesserte biotechnologische Produktionsverfahren | EP10174635.2 | 2005-06-17 | EP2264153A3 | 2011-10-26 | Bessler, Cornelius; Feesche, Jörg; Evers, Stefan; Maurer, Karl-Heinz; Ehrenreich, Armin; Veith, Birgit; Liesegang, Heiko; Singer, Anke; Herzberg, Christina; Gottschalk, Gerhard |
Die Bildung unangenehmer Gerüche bei der Fermentation von Mikroorganismen soll verringert werden und es sollen Gene identifiziert werden, die für Proteine codieren, die an der Bildung unangenehm riechender Verbindungen beteiligt sind. Dies gelingt durch eine Nukleinsäure gemäß SEQ ID NO. 31, die für ein an der Synthese von Butanol und/oder Buttersäure beteiligtes Genprodukt (wahrscheinliche Phosphat-Butyryl-Transferase; E.C. 2.3.1.19) codiert sowie alle hinreichend homologen Nukleinsäuren hierzu. Die Identifizierung dieses Gens ermöglicht biotechnologische Produktionsverfahren, die insofern verbessert sind, als mithilfe derartiger Nukleinsäuren die Bildung der über diese Stoffwechselwege synthetisierten Geruchsstoffe durch Inaktivierung des zugehörigen Gens in dem für die biotechnologische Produktion verwendeten Mikroorganismus verringert werden kann. |
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