| # | 状态 | 原始参考文献 (GB/T 7714) | 修正后文献 (GB/T 7714,与原始格式一致) | 主要差异 | 验证 |
|---|---|---|---|---|---|
| 1 | ✅ 验证通过 | [1]董鹏,陈金春,冷雪.表达胰岛素的毕赤酵母生长动力学及诱导策略[J].北京化工大学学报(自然科学版),2006,33(3):37-41. |
[1]董鹏,陈劲春,冷雪.表达胰岛素的毕赤酵母生长动力学及诱导策略[J].北京化工大学学报(自然科学版),2006,33(3):37-41.
|
作者:[删除]陈金春 → [新增]陈劲春(数据库:陈劲春) |
🔗 验证 |
| 2 | ✅ 验证通过 | [2]刘玉伟,黄明志,庄英萍,等.毕赤酵母高密度表达重组猪胰岛素前体的研究[J].微生物学通报,2007,34(2):225-229. |
[2]刘玉伟,黄明志,庄英萍,等.毕赤酵母高密度表达重组猪胰岛素前体的研究[J].微生物学通报,2007,34(1):225-229.
|
期号:[删除]2 → [新增]1(数据库显示期号为1期) 作者:刘玉伟;黄明志;庄英萍 → 刘玉伟;黄明志;庄英萍;储炬;张嗣良(数据库包含更多作者) |
🔗 验证 |
| 3 | ❌ 未找到 | [3]李红亮,陈勇,陈海容,等.双启动子共表达提高人胰岛素原在毕赤酵母中的表达[J].生物工程学报,2012,28(5):598-605. |
数据库未精确匹配,保留原始引用,请手动核实 [3]李红亮,陈勇,陈海容,等.双启动子共表达提高人胰岛素原在毕赤酵母中的表达[J].生物工程学报,2012,28(5):598-605. |
— | — |
| 4 | ❌ 未找到 | [4]王娟,张嗣良,储炬.毕赤酵母表达人胰岛素前体的发酵优化[J].中国生物工程杂志,2010,30(7):89-94. |
数据库未精确匹配,保留原始引用,请手动核实 [4]王娟,张嗣良,储炬.毕赤酵母表达人胰岛素前体的发酵优化[J].中国生物工程杂志,2010,30(7):89-94. |
— | — |
| 5 | ❌ 未找到 | [5]艾敏榕,林影,孙远明.Kex2蛋白酶在甲醇酵母中的分泌表达及对胰岛素加工的影响[J].华中理工大学学报,2002,30(8):102-104. |
数据库未精确匹配,保留原始引用,请手动核实 [5]艾敏榕,林影,孙远明.Kex2蛋白酶在甲醇酵母中的分泌表达及对胰岛素加工的影响[J].华中理工大学学报,2002,30(8):102-104. |
— | — |
| 6 | ❌ 未找到 | [6]陈海容,李红亮,范开.毕赤酵母组成型表达人胰岛素前体及葡萄糖发酵工艺[J].食品与发酵工业,2020,46(12):106-111. |
数据库未精确匹配,保留原始引用,请手动核实 [6]陈海容,李红亮,范开.毕赤酵母组成型表达人胰岛素前体及葡萄糖发酵工艺[J].食品与发酵工业,2020,46(12):106-111. |
— | — |
| 7 | ❌ 未找到 | [7]刘军,杨晟,姜卫红.酿酒酵母分泌表达单链胰岛素前体及体外转化[J].中国科学(C辑:生命科学),2009,39(3):225-233. |
数据库未精确匹配,保留原始引用,请手动核实 [7]刘军,杨晟,姜卫红.酿酒酵母分泌表达单链胰岛素前体及体外转化[J].中国科学(C辑:生命科学),2009,39(3):225-233. |
— | — |
| 8 | ❌ 未找到 | [8]张莉,马延和,周培瑾.重组毕赤酵母产人胰岛素前体的分离纯化[J].生物加工过程,2015,13(2):189-194. |
数据库未精确匹配,保留原始引用,请手动核实 [8]张莉,马延和,周培瑾.重组毕赤酵母产人胰岛素前体的分离纯化[J].生物加工过程,2015,13(2):189-194. |
— | — |
| 9 | ❌ 未找到 | [9]赵越,陈宁,张克旭.毕赤酵母工程菌表达胰岛素的稳定性研究[J].微生物学报,2013,53(4):378-385. |
数据库未精确匹配,保留原始引用,请手动核实 [9]赵越,陈宁,张克旭.毕赤酵母工程菌表达胰岛素的稳定性研究[J].微生物学报,2013,53(4):378-385. |
— | — |
| 10 | ❌ 未找到 | [10]黄程,陈勇,冯一建.分子伴侣共表达提升毕赤酵母胰岛素折叠效率[J].生物工程学报,2018,34(6):921-930. |
数据库未精确匹配,保留原始引用,请手动核实 [10]黄程,陈勇,冯一建.分子伴侣共表达提升毕赤酵母胰岛素折叠效率[J].生物工程学报,2018,34(6):921-930. |
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| 11 | ✅ 验证通过 | [11]THIM L,HANSEN M T,NORRIS K,et al.Secretion and processing of insulin precursors in yeast[J].Proceedings of the National Academy of Sciences,1986,83(17):6766-6770. |
[11]Thim L,Hansen M T,Norris K,等.Secretion and processing of insulin precursors in yeast.[J].Proc Natl Acad Sci U S A,1986,83(18):6766-6770.
|
期号:[删除]17 → [新增]18(数据库显示18期) 期刊名:[删除]Proceedings of the National Academy of Sciences → [新增]Proc Natl Acad Sci U S A(缩写形式) |
🔗 验证 |
| 12 | ✅ 验证通过 | [12]NILSSON J,JONASSON P,SAMUELSSON E,et al.Integrated production of human insulin and its C-peptide in Saccharomyces cerevisiae[J].Journal of Biotechnology,1996,48(3):241-250. |
[12]Joakim Nilsson,Per Jonasson,Elisabet Samuelsson,等.Integrated production of human insulin and its C-peptide[J].Journal of Biotechnology,1996,48(3):241-250.
|
— | 🔗 验证 |
| 13 | ✅ 验证通过 | [13]KJELDSEN T,FROST-PETTERSON A,HACH M.Secretory expression and characterization of insulin in Pichia pastoris[J].Biotechnology and Applied Biochemistry,1999,29(2):79-86. |
[13]T Kjeldsen,A F Pettersson,M Hach.Secretory expression and characterization of insulin in Pichia pastoris[J].Biotechnology and Applied Biochemistry,1999,29 ( Pt 1)(2):79-86.
|
卷/期:[删除]29(2) → [新增]29 Pt 1(数据库使用Pt格式) |
🔗 验证 |
| 14 | ❌ 未找到 | [14]WEYDEMANN U,KEUP P,PIONTEK M,et al.High-level secretion of recombinant human insulin precursor in Pichia pastoris[J].Yeast,2000,16(10):921-930. |
数据库未精确匹配,保留原始引用,请手动核实 [14]WEYDEMANN U,KEUP P,PIONTEK M,et al.High-level secretion of recombinant human insulin precursor in Pichia pastoris[J].Yeast,2000,16(10):921-930. |
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| 15 | ✅ 验证通过 | [15]FERRER-MIRALLES N,DOMINGO-ESPIN J,CORCHERO J L,et al.Microbial factories for recombinant pharmaceuticals[J].Microbial Cell Factories,2009,8(1):17. |
[15]Ferrer-Miralles,Neus,Domingo-Espin,等.Microbial factories for recombinant pharmaceuticals[J].Microbial Cell Factories,2009,8(1):17.
|
— | 🔗 验证 |
| 16 | ⚠️ 存在差异 | [16]KJELDSEN T,ANDERSEN A S,HUBÁLEK F,et al.Molecular engineering of insulin for recombinant expression in yeast[J].Advanced Drug Delivery Reviews,2011,63(13):1125-1137. |
[16]Thomas Kjeldsen,Asser Sloth Andersen,František Hubálek,等.Molecular engineering of insulin for recombinant expression in yeast[J].Trends in Biotechnology,2024,42(4):1125-1137.
|
年份:[删除]2011 → [新增]2024 期刊:[删除]Advanced Drug Delivery Reviews → [新增]Trends in Biotechnology 卷号:[删除]63 → [新增]42 期号:[删除]13 → [新增]4 页码:[删除]1125-1137 → [新增]待核实(文章信息不匹配,请手动查证原文) |
🔗 验证 |
| 17 | ❓ 疑似匹配 | [17]GURRAMKONDA C,POLEZ S,SKOKO N,et al.High-level secretory production of insulin precursor using Pichia pastoris with fed-batch fermentation[J].Microbial Cell Factories,2010,9(1):79. |
数据库未精确匹配,保留原始引用,请手动核实 [17]GURRAMKONDA C,POLEZ S,SKOKO N,et al.High-level secretory production of insulin precursor using Pichia pastoris with fed-batch fermentation[J].Microbial Cell Factories,2010,9(1):79. |
题名:数据库实际题名 → Application of simple fed-batch technique to high-level secretory production of insulin precursor using Pichia pastoris with subsequent purification and conversion to human insulin(疑似同一研究的不同题名版本,请核实) |
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| 18 | ✅ 验证通过 | [18]POLEZ S,ORIGI D,ZAHARIEV S,et al.A simplified and efficient process for insulin production in Pichia pastoris[J].PLOS ONE,2016,11(12):e0167207. |
[18]Polez,Sulena,Origi,等.A Simplified and Efficient Process for Insulin Production in Pichia pastoris[J].PLOS One,2016,11(12):e0167207.
|
— | 🔗 验证 |
| 19 | ✅ 验证通过 | [19]MEEHL M A,STADHEIM T A.Biopharmaceutical discovery and production in yeast[J].Current Opinion in Biotechnology,2014,30:120-127. |
[19]Michael A Meehl,Terrance A Stadheim.Biopharmaceutical discovery and production in yeast[J].Current Opinion in Biotechnology,2014,30:120-127.
|
— | 🔗 验证 |
| 20 | ✅ 验证通过 | [20]TÜRKANOĞLU-ÖZÇELİK A,ERSÖZ F,YILMAZ S,et al.GAP promoter for recombinant human insulin production in Pichia pastoris[J].Sigma Journal of Engineering and Natural Sciences,2025,43(1):282-289. |
[20]Turkanoglu-Ozcelik,Aysun,Ersoz,等.Applicability of the constitutive GAP promoter for recombinant human insulin hormone production in Pichia pastoris[J].SIGMA JOURNAL OF ENGINEERING AND NATURAL SCIENCES-SIGMA MUHENDISLIK VE FEN BILIMLERI DERGISI,2025,43(1):282-289.
|
题名:部分差异 → 数据库全称为 Applicability of the constitutive GAP promoter for recombinant human insulin hormone production in Pichia pastoris |
🔗 验证 |
| 21 | ✅ 验证通过 | [21]SOHN J H,LEE J H,KIM H J,et al.Functional expression of recombinant insulins in Saccharomyces cerevisiae[J].Microbial Cell Factories,2024,23(1):123. |
[21]Kim,Mi-Jin,Park,等.Functional expression of recombinant insulins in Saccharomyces cerevisiae[J].Microbial Cell Factories,2024,23(1):123.
|
第一作者:[删除]SOHN J H → [新增]Kim, Mi-Jin(数据库第一作者为Kim, Mi-Jin,SOHN J H(Jung-Hoon Sohn)为通讯作者) |
🔗 验证 |
| 22 | ❌ 未找到 | [22]LI Y,ZHANG Y,WANG H,et al.Full-length vs truncated α-factor signal for insulin precursor in Pichia pastoris[J].Protein Expression and Purification,2023,208:106789. |
数据库未精确匹配,保留原始引用,请手动核实 [22]LI Y,ZHANG Y,WANG H,et al.Full-length vs truncated α-factor signal for insulin precursor in Pichia pastoris[J].Protein Expression and Purification,2023,208:106789. |
— | — |
| 23 | ❌ 未找到 | [23]CHEN H R,LI H L,FAN K.Constitutive expression of human insulin precursor in Pichia pastoris with glucose-based fermentation[J].Journal of Industrial Microbiology & Biotechnology,2021,48(7):kuab045. |
数据库未精确匹配,保留原始引用,请手动核实 [23]CHEN H R,LI H L,FAN K.Constitutive expression of human insulin precursor in Pichia pastoris with glucose-based fermentation[J].Journal of Industrial Microbiology & Biotechnology,2021,48(7):kuab045. |
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| 24 | ❓ 疑似匹配 | [24]ZHANG L,MA Y H,ZHOU P J.Purification of recombinant human insulin precursor from Pichia pastoris[J].Separation and Purification Technology,2018,200:116-123. |
数据库未精确匹配,保留原始引用,请手动核实 [24]ZHANG L,MA Y H,ZHOU P J.Purification of recombinant human insulin precursor from Pichia pastoris[J].Separation and Purification Technology,2018,200:116-123. |
疑似匹配:与原文献信息差异较大 → 数据库返回Detection of the single-chain precursor in the production and purification process of recombinant human insulin (2013),题名与原文不符,请手动核实 |
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| 25 | ❓ 疑似匹配 | [25]WANG J,ZHANG S L,CHU J.High-density fermentation of Pichia pastoris for insulin precursor production[J].Bioprocess and Biosystems Engineering,2019,42(8):1289-1298. |
数据库未精确匹配,保留原始引用,请手动核实 [25]WANG J,ZHANG S L,CHU J.High-density fermentation of Pichia pastoris for insulin precursor production[J].Bioprocess and Biosystems Engineering,2019,42(8):1289-1298. |
疑似匹配:与原文献信息差异较大 → 数据库返回2006年猪胰岛素前体相关文献,与原文年份(2019)和期刊不匹配,请手动核实 |
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| 26 | ❓ 疑似匹配 | [26]ZHAO Y,CHEN N,ZHANG K X.Stability of recombinant Pichia pastoris for insulin expression[J].Journal of Biotechnology,2020,320:117-124. |
数据库未精确匹配,保留原始引用,请手动核实 [26]ZHAO Y,CHEN N,ZHANG K X.Stability of recombinant Pichia pastoris for insulin expression[J].Journal of Biotechnology,2020,320:117-124. |
疑似匹配:与原文献信息差异较大 → 数据库返回Stability analysis of a Pichia pastoris recombinant clone expressing human insulin precursor(IOP, 2020),与原文期刊Journal of Biotechnology不符,请手动核实 |
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| 27 | ❓ 疑似匹配 | [27]LIU J,YANG S,JIANG W H.Secretory expression of single-chain insulin precursor in Saccharomyces cerevisiae[J].Science in China Series C:Life Sciences,2009,52(3):225-233. |
数据库未精确匹配,保留原始引用,请手动核实 [27]LIU J,YANG S,JIANG W H.Secretory expression of single-chain insulin precursor in Saccharomyces cerevisiae[J].Science in China Series C:Life Sciences,2009,52(3):225-233. |
疑似匹配:年份差异 → 数据库返回1996年文章(张友尚等),与原文2009年/刘军等不符,请手动核实 |
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| 28 | ❌ 未找到 | [28]KIM H,PARK J,LEE S.Yeast cell factories for insulin and insulin analogs:Current status and future perspectives[J].Biotechnology Advances,2022,59:107987. |
数据库未精确匹配,保留原始引用,请手动核实 [28]KIM H,PARK J,LEE S.Yeast cell factories for insulin and insulin analogs:Current status and future perspectives[J].Biotechnology Advances,2022,59:107987. |
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| 29 | ❌ 未找到 | [29]GARCIA-ORTEGA X,FERRER-MIRALLES N,VILLAVERDE A.Recombinant insulin production:From microbial factories to biopharmaceutical applications[J].Microorganisms,2023,11(8):1925. |
数据库未精确匹配,保留原始引用,请手动核实 [29]GARCIA-ORTEGA X,FERRER-MIRALLES N,VILLAVERDE A.Recombinant insulin production:From microbial factories to biopharmaceutical applications[J].Microorganisms,2023,11(8):1925. |
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| 30 | ❌ 未找到 | [30]LI H L,CHEN Y,HUANG C.Molecular chaperone co-expression enhances insulin folding in Pichia pastoris[J].Applied Microbiology and Biotechnology,2024,108(12):4567-4576. |
数据库未精确匹配,保留原始引用,请手动核实 [30]LI H L,CHEN Y,HUANG C.Molecular chaperone co-expression enhances insulin folding in Pichia pastoris[J].Applied Microbiology and Biotechnology,2024,108(12):4567-4576. |
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[1]董鹏,陈劲春,冷雪.表达胰岛素的毕赤酵母生长动力学及诱导策略[J].北京化工大学学报(自然科学版),2006,33(3):37-41. [2]刘玉伟,黄明志,庄英萍,等.毕赤酵母高密度表达重组猪胰岛素前体的研究[J].微生物学通报,2007,34(1):225-229. [3]李红亮,陈勇,陈海容,等.双启动子共表达提高人胰岛素原在毕赤酵母中的表达[J].生物工程学报,2012,28(5):598-605. [4]王娟,张嗣良,储炬.毕赤酵母表达人胰岛素前体的发酵优化[J].中国生物工程杂志,2010,30(7):89-94. [5]艾敏榕,林影,孙远明.Kex2蛋白酶在甲醇酵母中的分泌表达及对胰岛素加工的影响[J].华中理工大学学报,2002,30(8):102-104. [6]陈海容,李红亮,范开.毕赤酵母组成型表达人胰岛素前体及葡萄糖发酵工艺[J].食品与发酵工业,2020,46(12):106-111. [7]刘军,杨晟,姜卫红.酿酒酵母分泌表达单链胰岛素前体及体外转化[J].中国科学(C辑:生命科学),2009,39(3):225-233. [8]张莉,马延和,周培瑾.重组毕赤酵母产人胰岛素前体的分离纯化[J].生物加工过程,2015,13(2):189-194. [9]赵越,陈宁,张克旭.毕赤酵母工程菌表达胰岛素的稳定性研究[J].微生物学报,2013,53(4):378-385. [10]黄程,陈勇,冯一建.分子伴侣共表达提升毕赤酵母胰岛素折叠效率[J].生物工程学报,2018,34(6):921-930. [11]Thim L,Hansen M T,Norris K,等.Secretion and processing of insulin precursors in yeast.[J].Proc Natl Acad Sci U S A,1986,83(18):6766-6770. [12]Joakim Nilsson,Per Jonasson,Elisabet Samuelsson,等.Integrated production of human insulin and its C-peptide[J].Journal of Biotechnology,1996,48(3):241-250. [13]T Kjeldsen,A F Pettersson,M Hach.Secretory expression and characterization of insulin in Pichia pastoris[J].Biotechnology and Applied Biochemistry,1999,29 ( Pt 1)(2):79-86. [14]WEYDEMANN U,KEUP P,PIONTEK M,et al.High-level secretion of recombinant human insulin precursor in Pichia pastoris[J].Yeast,2000,16(10):921-930. [15]Ferrer-Miralles,Neus,Domingo-Espin,等.Microbial factories for recombinant pharmaceuticals[J].Microbial Cell Factories,2009,8(1):17. [16]Thomas Kjeldsen,Asser Sloth Andersen,František Hubálek,等.Molecular engineering of insulin for recombinant expression in yeast[J].Trends in Biotechnology,2024,42(4):1125-1137. [17]GURRAMKONDA C,POLEZ S,SKOKO N,et al.High-level secretory production of insulin precursor using Pichia pastoris with fed-batch fermentation[J].Microbial Cell Factories,2010,9(1):79. [18]Polez,Sulena,Origi,等.A Simplified and Efficient Process for Insulin Production in Pichia pastoris[J].PLOS One,2016,11(12):e0167207. [19]Michael A Meehl,Terrance A Stadheim.Biopharmaceutical discovery and production in yeast[J].Current Opinion in Biotechnology,2014,30:120-127. [20]Turkanoglu-Ozcelik,Aysun,Ersoz,等.Applicability of the constitutive GAP promoter for recombinant human insulin hormone production in Pichia pastoris[J].SIGMA JOURNAL OF ENGINEERING AND NATURAL SCIENCES-SIGMA MUHENDISLIK VE FEN BILIMLERI DERGISI,2025,43(1):282-289. [21]Kim,Mi-Jin,Park,等.Functional expression of recombinant insulins in Saccharomyces cerevisiae[J].Microbial Cell Factories,2024,23(1):123. [22]LI Y,ZHANG Y,WANG H,et al.Full-length vs truncated α-factor signal for insulin precursor in Pichia pastoris[J].Protein Expression and Purification,2023,208:106789. [23]CHEN H R,LI H L,FAN K.Constitutive expression of human insulin precursor in Pichia pastoris with glucose-based fermentation[J].Journal of Industrial Microbiology & Biotechnology,2021,48(7):kuab045. [24]ZHANG L,MA Y H,ZHOU P J.Purification of recombinant human insulin precursor from Pichia pastoris[J].Separation and Purification Technology,2018,200:116-123. [25]WANG J,ZHANG S L,CHU J.High-density fermentation of Pichia pastoris for insulin precursor production[J].Bioprocess and Biosystems Engineering,2019,42(8):1289-1298. [26]ZHAO Y,CHEN N,ZHANG K X.Stability of recombinant Pichia pastoris for insulin expression[J].Journal of Biotechnology,2020,320:117-124. [27]LIU J,YANG S,JIANG W H.Secretory expression of single-chain insulin precursor in Saccharomyces cerevisiae[J].Science in China Series C:Life Sciences,2009,52(3):225-233. [28]KIM H,PARK J,LEE S.Yeast cell factories for insulin and insulin analogs:Current status and future perspectives[J].Biotechnology Advances,2022,59:107987. [29]GARCIA-ORTEGA X,FERRER-MIRALLES N,VILLAVERDE A.Recombinant insulin production:From microbial factories to biopharmaceutical applications[J].Microorganisms,2023,11(8):1925. [30]LI H L,CHEN Y,HUANG C.Molecular chaperone co-expression enhances insulin folding in Pichia pastoris[J].Applied Microbiology and Biotechnology,2024,108(12):4567-4576.
[1]董鹏,陈劲春,冷雪.表达胰岛素的毕赤酵母生长动力学及诱导策略[J].北京化工大学学报(自然科学版),2006,33(3):37-41. [2]刘玉伟,黄明志,庄英萍,等.毕赤酵母高密度表达重组猪胰岛素前体的研究[J].微生物学通报,2007,34(1):225-229. [3]李红亮,陈勇,陈海容,等.双启动子共表达提高人胰岛素原在毕赤酵母中的表达[J].生物工程学报,2012,28(5):598-605. [4]王娟,张嗣良,储炬.毕赤酵母表达人胰岛素前体的发酵优化[J].中国生物工程杂志,2010,30(7):89-94. [5]艾敏榕,林影,孙远明.Kex2蛋白酶在甲醇酵母中的分泌表达及对胰岛素加工的影响[J].华中理工大学学报,2002,30(8):102-104. [6]陈海容,李红亮,范开.毕赤酵母组成型表达人胰岛素前体及葡萄糖发酵工艺[J].食品与发酵工业,2020,46(12):106-111. [7]刘军,杨晟,姜卫红.酿酒酵母分泌表达单链胰岛素前体及体外转化[J].中国科学(C辑:生命科学),2009,39(3):225-233. [8]张莉,马延和,周培瑾.重组毕赤酵母产人胰岛素前体的分离纯化[J].生物加工过程,2015,13(2):189-194. [9]赵越,陈宁,张克旭.毕赤酵母工程菌表达胰岛素的稳定性研究[J].微生物学报,2013,53(4):378-385. [10]黄程,陈勇,冯一建.分子伴侣共表达提升毕赤酵母胰岛素折叠效率[J].生物工程学报,2018,34(6):921-930. [11]Thim L,Hansen M T,Norris K,等.Secretion and processing of insulin precursors in yeast.[J].Proc Natl Acad Sci U S A,1986,83(18):6766-6770. [12]Joakim Nilsson,Per Jonasson,Elisabet Samuelsson,等.Integrated production of human insulin and its C-peptide[J].Journal of Biotechnology,1996,48(3):241-250. [13]T Kjeldsen,A F Pettersson,M Hach.Secretory expression and characterization of insulin in Pichia pastoris[J].Biotechnology and Applied Biochemistry,1999,29 ( Pt 1)(2):79-86. [14]WEYDEMANN U,KEUP P,PIONTEK M,et al.High-level secretion of recombinant human insulin precursor in Pichia pastoris[J].Yeast,2000,16(10):921-930. [15]Ferrer-Miralles,Neus,Domingo-Espin,等.Microbial factories for recombinant pharmaceuticals[J].Microbial Cell Factories,2009,8(1):17. [16]Thomas Kjeldsen,Asser Sloth Andersen,František Hubálek,等.Molecular engineering of insulin for recombinant expression in yeast[J].Trends in Biotechnology,2024,42(4):1125-1137. [17]GURRAMKONDA C,POLEZ S,SKOKO N,et al.High-level secretory production of insulin precursor using Pichia pastoris with fed-batch fermentation[J].Microbial Cell Factories,2010,9(1):79. [18]Polez,Sulena,Origi,等.A Simplified and Efficient Process for Insulin Production in Pichia pastoris[J].PLOS One,2016,11(12):e0167207. [19]Michael A Meehl,Terrance A Stadheim.Biopharmaceutical discovery and production in yeast[J].Current Opinion in Biotechnology,2014,30:120-127. [20]Turkanoglu-Ozcelik,Aysun,Ersoz,等.Applicability of the constitutive GAP promoter for recombinant human insulin hormone production in Pichia pastoris[J].SIGMA JOURNAL OF ENGINEERING AND NATURAL SCIENCES-SIGMA MUHENDISLIK VE FEN BILIMLERI DERGISI,2025,43(1):282-289. [21]Kim,Mi-Jin,Park,等.Functional expression of recombinant insulins in Saccharomyces cerevisiae[J].Microbial Cell Factories,2024,23(1):123. [22]LI Y,ZHANG Y,WANG H,et al.Full-length vs truncated α-factor signal for insulin precursor in Pichia pastoris[J].Protein Expression and Purification,2023,208:106789. [23]CHEN H R,LI H L,FAN K.Constitutive expression of human insulin precursor in Pichia pastoris with glucose-based fermentation[J].Journal of Industrial Microbiology & Biotechnology,2021,48(7):kuab045. [24]ZHANG L,MA Y H,ZHOU P J.Purification of recombinant human insulin precursor from Pichia pastoris[J].Separation and Purification Technology,2018,200:116-123. [25]WANG J,ZHANG S L,CHU J.High-density fermentation of Pichia pastoris for insulin precursor production[J].Bioprocess and Biosystems Engineering,2019,42(8):1289-1298. [26]ZHAO Y,CHEN N,ZHANG K X.Stability of recombinant Pichia pastoris for insulin expression[J].Journal of Biotechnology,2020,320:117-124. [27]LIU J,YANG S,JIANG W H.Secretory expression of single-chain insulin precursor in Saccharomyces cerevisiae[J].Science in China Series C:Life Sciences,2009,52(3):225-233. [28]KIM H,PARK J,LEE S.Yeast cell factories for insulin and insulin analogs:Current status and future perspectives[J].Biotechnology Advances,2022,59:107987. [29]GARCIA-ORTEGA X,FERRER-MIRALLES N,VILLAVERDE A.Recombinant insulin production:From microbial factories to biopharmaceutical applications[J].Microorganisms,2023,11(8):1925. [30]LI H L,CHEN Y,HUANG C.Molecular chaperone co-expression enhances insulin folding in Pichia pastoris[J].Applied Microbiology and Biotechnology,2024,108(12):4567-4576.
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