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    • 3. 发明申请
    • BUTANOL PRODUCTION BY METABOLICALLY ENGINEERED YEAST
    • 用代谢工程酵母生产丁醇
    • WO2008080124A2
    • 2008-07-03
    • PCT/US2007/088705
    • 2007-12-21
    • GEVOGUNAWARDENA, UviniMEINHOLD, PeterPETERS, Matthew W.URANO, JunFELDMAN, Reid M. Renny
    • GUNAWARDENA, UviniMEINHOLD, PeterPETERS, Matthew W.URANO, JunFELDMAN, Reid M. Renny
    • C12P7/16
    • C12P7/16C12N9/0008C12N9/88C12N9/93Y02E50/10
    • There are disclosed metabolically-engineered yeast and methods of producing n-butanol. In an embodiment, metabolically-engineered yeast is capable of metabolizing a carbon source to produce n-butanol, at least one pathway produces increased cytosolic acetyl-CoA relative to cytosolic acetyl-CoA produced by a wild-type yeast, and at least one heterologous gene encodes and expresses at least one enzyme for a metabolic pathway capable of utilizing NADH to convert acetyl-CoA to n-butanol. In another embodiment, a method of producing n-butanol includes (a) providing metabolically-engineered yeast capable of metabolizing a carbon source to produce n-butanol, at least one pathway produces increased cytosolic acetyl-CoA relative to cytosolic acetyl-CoA produced by a wild-type yeast, and at least one heterologous gene encodes and expresses at least one enzyme for a metabolic pathway utilizing NADH to convert acetyl-CoA to n-butanol; and (b) culturing the yeast to produce n-butanol. Other embodiments are also disclosed.
    • 公开了代谢工程酵母和生产正丁醇的方法。 在一个实施方案中,代谢工程化的酵母能够代谢碳源以产生正丁醇,相对于由野生型酵母产生的胞质乙酰-CoA,至少一种途径产生增加的胞质乙酰-CoA,并且至少一种异源 基因编码和表达至少一种能够利用NADH将乙酰-CoA转化为正丁醇的代谢途径的酶。 在另一个实施方案中,生产正丁醇的方法包括(a)提供能够代谢碳源以产生正丁醇的代谢工程化的酵母,至少一个途径产生相对于由胞质乙酰-CoA产生的胞质乙酰-CoA增加的胞质乙酰-CoA 野生型酵母,并且至少一种异源基因编码并表达至少一种用于利用NADH将乙酰-CoA转化为正丁醇的代谢途径的酶; 和(b)培养酵母以产生正丁醇。 其他实施例也被公开。
    • 4. 发明公开
    • BUTANOL PRODUCTION BY METABOLICALLY ENGINEERED YEAST
    • 用代谢工程酵母生产丁醇
    • EP2121949A2
    • 2009-11-25
    • EP07871733.7
    • 2007-12-21
    • GEVO, Inc.
    • GUNAWARDENA, UviniMEINHOLD, PeterPETERS, Matthew W.URANO, JunFELDMAN, Reid M. Renny
    • C12P7/16
    • C12P7/16C12N9/0008C12N9/88C12N9/93Y02E50/10
    • There are disclosed metabolically-engineered yeast and methods of producing n-butanol. In an embodiment, metabolically-engineered yeast is capable of metabolizing a carbon source to produce n-butanol, at least one pathway produces increased cytosolic acetyl-CoA relative to cytosolic acetyl-CoA produced by a wild-type yeast, and at least one heterologous gene encodes and expresses at least one enzyme for a metabolic pathway capable of utilizing NADH to convert acetyl-CoA to n-butanol. In another embodiment, a method of producing n-butanol includes (a) providing metabolically-engineered yeast capable of metabolizing a carbon source to produce n-butanol, at least one pathway produces increased cytosolic acetyl-CoA relative to cytosolic acetyl-CoA produced by a wild-type yeast, and at least one heterologous gene encodes and expresses at least one enzyme for a metabolic pathway utilizing NADH to convert acetyl-CoA to n-butanol; and (b) culturing the yeast to produce n-butanol. Other embodiments are also disclosed.
    • 公开了代谢工程酵母和生产正丁醇的方法。 在一个实施方案中,代谢工程化的酵母能够代谢碳源以产生正丁醇,相对于由野生型酵母产生的胞质乙酰-CoA,至少一种途径产生增加的胞质乙酰-CoA,并且至少一种异源 基因编码和表达至少一种能够利用NADH将乙酰-CoA转化为正丁醇的代谢途径的酶。 在另一个实施方案中,生产正丁醇的方法包括(a)提供能够代谢碳源以产生正丁醇的代谢工程化的酵母,至少一个途径产生相对于由胞质乙酰-CoA产生的胞质乙酰-CoA增加的胞质乙酰-CoA 野生型酵母,并且至少一种异源基因编码并表达至少一种用于利用NADH将乙酰-CoA转化为正丁醇的代谢途径的酶; 和(b)培养酵母以产生正丁醇。 其他实施例也被公开。