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1.
3-羟基丁酸和3-羟基己酸共聚酯(PHBHHx)是一种性能优良的新型生物可降解材料,其机械和加工性能与3-羟基己酸(3HHx)在共聚物中的含量密切相关。在嗜水气单孢菌Aeromonas hydrophila 4AK4中引入了编码β-酮基硫解酶(β-ketothiolase)的phbA基因和编码乙酰乙酰辅酶A还原酶(Acetoacetyl-CoA reductase)的phbB基因,使重组菌增加了一条利用乙酰辅酶A合成3-羟基丁酸-CoA的代谢途径,这使得利用非相关性碳源调控PHBHHx的单体组成比例成为可能。利用葡萄糖酸钠和月桂酸作为碳源,对重组Aeromonas hydrophila 4AK4进行了摇瓶培养及5L发酵罐培养的研究。在摇瓶实验中,通过改变碳源中两种组分的比例,可以使A,hydrophila 4AK4合成的PHBHHx中的3HHx摩尔含量由原来的15%左右降低到3%~12%,成功地实现了对PHBHHx单体组成的调控;当以月桂酸为唯一碳源时,在5L发酵罐中,经过56h的培养,获得了51.5g/L的细胞干重(CDW),其中62%为PHBHHx,3HHx在PHBHHx中的摩尔含量为9.7%;当以1:1的葡萄糖酸钠和月桂酸为碳源时,48h的5L发酵罐培养获得了32.8g/L的CDW和52%的PHBHHx含量,其中3HHx在PHBHHx中的摩尔含量为6.7%。结果证明了该重组菌在大规模生产单体组成可控PHBHHx方面具有很大的应用潜力。  相似文献   

2.
3-羟基丁酸和3-羟基己酸共聚酯(PHBHHx)是一种性能优良的新型生物可降解材料,其机械和加工性能与3-羟基己酸(3HHx)在共聚物中的含量密切相关。在嗜水气单孢菌Aeromonas hydrophila 4AK4中引入了编码β酮基硫解酶 (β-ketothiolase)的phbA基因和编码乙酰乙酰辅酶A还原酶(AcetoacetylCoA reductase)的phbB基因,使重组菌增加了一条利用乙酰辅酶A合成3羟基丁酸-CoA的代谢途径,这使得利用非相关性碳源调控PHBHHx的单体组成比例成为可能。利用葡萄糖酸钠和月桂酸作为碳源,对重组Aeromonas hydrophila 4AK4进行了摇瓶培养及5 L发酵罐培养的研究。在摇瓶实验中,通过改变碳源中两种组分的比例,可以使A. hydrophila 4AK4合成的PHBHHx中的3HHx摩尔含量由原来的15%左右降低到3%~12 %,成功地实现了对PHBHHx单体组成的调控;当以月桂酸为唯一碳源时,在5 L发酵罐中,经过56 h的培养,获得了51.5 g/L的细胞干重(CDW),其中62 %为PHBHHx,3HHx在PHBHHx中的摩尔含量为9.7 %;当以1:1的葡萄糖酸钠和月桂酸为碳源时,48 h的5 L发酵罐培养获得了32.8 g/L的CDW和52 %的PHBHHx含量,其中3HHx在PHBHHx中的摩尔含量为6.7 %。结果证明了该重组菌在大规模生产单体组成可控PHBHHx方面具有很大的应用潜力。  相似文献   

3.
3羟基丁酸与3羟基己酸共聚酯(PHBHHx)是由微生物合成的完全可降解高分子材料,其材料性能与3羟基己酸(3HHx)在共聚物中的含量有关。嗜水性气单孢菌A.hydrophila4AK4合成的PHBHHx中,3HHx含量通常都在12~15mol%之间。通过在培养基中添加正丁醇,降低了PHBHHx中3HHx的含量。在摇瓶培养中获得了含3HHx为58mol%的PHBHHx;在6L发酵罐中54h的发酵培养,获得40gL的细胞干重(CDW),并将3HHx的含量在发酵过程中有效地降低到5~10mol%。  相似文献   

4.
嗜水气单胞菌WQ中PHBHHx的合成及其分子基础研究   总被引:3,自引:0,他引:3  
聚羟基脂肪酸酯(Polyhydroxyalkanoate,PHA)是一系列生物合成的高分子材料,其单体可由多种3-羟基脂肪酸(3-hydroxyalkanoate,3HA)构成^[1]。PHA物理和机械性能的变化很大,从高脆性到弹性体,这跟它们的单体成分有很大关系^[2]。短链和中长链单体共聚的PHA比短链单体或中长链单体聚合得到的PHA有着更好的性能^[3]。在1994年,豚鼠气单胞菌(Aeromonas caviae)FA440被发现能以偶数碳原子数脂肪酸或植物油作为碳源在体内积累PHBHHx^[4]其PHA生物合成基因被成功克隆^[5]。根据亚基数目和底物特异性,PHA合成的关键酶,即PHA合酶或PhaC,被分成了3种类型。A.caviae的PHA合酶属于第1类PHA合酶^[6]。PHA合酶的一些类型含有一些保守的基因序列,该特征可被用于克隆,特别是第Ⅱ类PHA合酶^[2,8]。嗜水气单胞菌(Aeromonas hydrophila)WQ和A.hydrophila 4AK4是能够合成PHBHHx的另外两种菌株,其中A.hydrophila 4AK4已被用作大规模生产PHBHHx。就目前来说,不管生长条件怎么改变,其合成的PHBHHx中3羟基己酸单体(3-hydroxyhexanoate,3HHx)的含量始终在12%~17%之间变化^[9]。而A.hydrophila WQ合成的PHBHHx中则含有6%~14% 3HHx。本论文研究了A.hydrophila WQ的PHA生物合成及其分子基础。  相似文献   

5.
分别利用葡萄糖或葡萄糖酸钠与十一碳酸、月桂酸与十一碳酸为混合碳源进行嗜水气单孢菌 (Aeromonashydrophila)菌株 4AK4的摇瓶培养 ,实现了含有 3 羟基戊酸 (3HV)单体的聚羟基脂肪酸酯的微生物合成。当使用葡萄糖或葡萄糖酸钠与十一碳酸为混合碳源时 ,野生型A .hydrophila 4AK4及含有 3 羟基丁酸辅酶A合成基因phaA和phaB的重组A .hydrophila 4AK4 (pTG01)能够合成-3-羟基丁酸(3HB)与-3HV的共聚物 ,且葡萄糖或葡萄糖酸钠与十一碳酸比例为 1∶1时最利于细胞生长和PHA的积累。当使用月桂酸和十一碳酸为混合碳源时 ,A .hydrophila4AK4能够合成-3HB、3HV与 β-羟基己酸 (3HHx)的共聚物 ,且随着混合碳源中十一碳酸的含量增加 ,A .hydrophila4AK4合成的PHA中-3HV的比例增加 ,而-3HB和-3HHx的比例降低.  相似文献   

6.
高效启动子在微生物生产4-羟基丁酸中的应用   总被引:2,自引:0,他引:2  
4-羟基丁酸(4HB)是一种精神类药物,还可用于合成聚-4-羟基丁酸酯(P4HB)、聚(3-羟基丁酸酯-co-4-羟基丁酸酯)(P3HB4HB)等聚合物。在醇脱氢酶(DhaT)和醛脱氢酶(AldD)的共同作用下,1,4-丁二醇(BD)可转化为4-羟基丁酸。通过引入T7和PRe两种高效启动子,加强了dhaT和aldD基因的表达,促进合成4-羟基丁酸的反应进行。同时还研究了底物1,4-丁二醇的浓度对4HB生产的影响。结果表明:提供10 g/L的1,4-丁二醇,受PRe启动子调控的重组菌A.hydrophila 4AK4(pZQ01)可生产6.00 g/L的4-羟基丁酸,比对照组提高43.20%;而受T7启动子调控的重组菌A.hydrophila 4AK4(pZQ04)可生产4.87 g/L 4-羟基丁酸,比对照组提高16.23%。意味着T7和PRe这两种启动子确实发挥了提高基因表达水平的作用,加速了4-羟基丁酸的生物合成。  相似文献   

7.
为了研究可降解聚合材料3-羟基丁酸与3-羟基己酸共聚酯 (3-hydroxybutyrate-co-3-hydroxyhexanoate, PHBHHx)的血管内生物相容性, 采用脱细胞羊肺动脉为支架, 以PHBHHx涂层, 构建复合补片(Hybrid patch), 植入New Zealand兔腹主动脉内(12只), 以脱细胞未涂层羊肺动脉片(Uncoated patch)做为对照(12只)。分别于术后第1、4和12周处死动物, 取出移植补片进行组织学、免疫荧光染色、扫描电镜和钙含量测定。结果表明: hybrid patch管腔面光滑无血栓, 内膜增生适度, 再细胞化完全; 免疫荧光染色检测, 新生内膜组织中类内皮细胞呈CD31阳性反应, 单层连续排列, 间质细胞呈现SMA阳性反应; 钙含量测定, hybrid patch明显低于uncoated patch(P<0.05)。由此认为: PHBHHx的血管内生物相容性满意, 是心血管组织工程较为理想的腔内涂层材料。  相似文献   

8.
为了研究可降解聚合材料3-羟基丁酸与3-羟基己酸共聚酯 (3-hydroxybutyrate-co-3-hydroxyhexanoate, PHBHHx)的血管内生物相容性, 采用脱细胞羊肺动脉为支架, 以PHBHHx涂层, 构建复合补片(Hybrid patch), 植入New Zealand兔腹主动脉内(12只), 以脱细胞未涂层羊肺动脉片(Uncoated patch)做为对照(12只)。分别于术后第1、4和12周处死动物, 取出移植补片进行组织学、免疫荧光染色、扫描电镜和钙含量测定。结果表明: hybrid patch管腔面光滑无血栓, 内膜增生适度, 再细胞化完全; 免疫荧光染色检测, 新生内膜组织中类内皮细胞呈CD31阳性反应, 单层连续排列, 间质细胞呈现SMA阳性反应; 钙含量测定, hybrid patch明显低于uncoated patch(P<0.05)。由此认为: PHBHHx的血管内生物相容性满意, 是心血管组织工程较为理想的腔内涂层材料。  相似文献   

9.
利用Clostridium acetobutylicum的丁酸激酶基因 (buk) 和磷酸转丁酰基酶基因(ptb),以及Thiocapsa pfennigii的PHA合成酶基因,设计了一条能够合成多种聚羟基烷酸的代谢途径,用构建的质粒转化大肠杆菌,获得了重组大肠杆菌菌株.前期的研究表明,在合适的前体物条件下,该重组大肠杆菌能够合成包括聚羟基丁酸、聚(羟基丁酸-戊酸)等多种生物聚酯[Liu and Steinbüchel, Appl. Environ. Microbiol. 66739-743].利用该重组大肠杆菌,通过生物催化作用合成了3-巯基丙酸的同型共聚酯,同时利用该重组大肠杆菌还获得了含3-巯基丙酸单体的多种异型共聚物.实验首先研究了3-巯基丙酸对大肠杆菌生长的影响,在此基础上优化了培养过程中添加3-巯基丙酸的时机和浓度,结果表明,在实验的条件下,细胞合成聚(3-巯基丙酸)可达6.7%(占细胞干重),合成聚(3-羟基丁酸-3-巯基丙酸)(分子中3-巯基丙酸3-羟基丁酸=31)可达24.3%.实验进一步研究了同时或分别表达以上3个基因的重组大肠杆菌合成聚合物的能力,结果表明只有当3个基因同时表达时才能合成聚合物,说明3个基因对合成过程是必须的,从而表明了合成途径是按照设计的路线进行的.还通过GC/MS、GPC、IR等手段对合成的化合物进行了定性的研究.聚(3-巯基丙酸)或聚(3-羟基丁酸-3-巯基丙酸)等聚酯属于一类新型生物聚合物,它在分子骨架中含有硫酯键,不同于聚羟基烷酸酯的氧酯键,从而具有显著不同的物理、化学、光学等性质和具有重要的潜在应用价值.  相似文献   

10.
利用Clostridium acetobutylicum的丁酸激酶基因 (buk) 和磷酸转丁酰基酶基因(ptb),以及Thiocapsa pfennigii的PHA合成酶基因,设计了一条能够合成多种聚羟基烷酸的代谢途径,用构建的质粒转化大肠杆菌,获得了重组大肠杆菌菌株。前期的研究表明,在合适的前体物条件下,该重组大肠杆菌能够合成包括聚羟基丁酸、聚(羟基丁酸戊酸)等多种生物聚酯[Liu and Steinbüchel, Appl. Environ. Microbiol. 66:739743]。利用该重组大肠杆菌,通过生物催化作用合成了3巯基丙酸的同型共聚酯,同时利用该重组大肠杆菌还获得了含3-巯基丙酸单体的多种异型共聚物。实验首先研究了3巯基丙酸对大肠杆菌生长的影响,在此基础上优化了培养过程中添加3-巯基丙酸的时机和浓度,结果表明,在实验的条件下,细胞合成聚(3-巯基丙酸)可达6.7%(占细胞干重),合成聚(3-羟基丁酸—3-巯基丙酸)(分子中3-巯基丙酸:3-羟基丁酸=3:1)可达24.3%。实验进一步研究了同时或分别表达以上3个基因的重组大肠杆菌合成聚合物的能力,结果表明只有当3个基因同时表达时才能合成聚合物,说明3个基因对合成过程是必须的,从而表明了合成途径是按照设计的路线进行的。还通过GC/MS、GPC、IR等手段对合成的化合物进行了定性的研究。聚(3-巯基丙酸)或聚(3-羟基丁酸-3-巯基丙酸)等聚酯属于一类新型生物聚合物,它在分子骨架中含有硫酯键,不同于聚羟基烷酸酯的氧酯键,从而具有显著不同的物理、化学、光学等性质和具有重要的潜在应用价值。  相似文献   

11.
Aeromonas hydrophila 4AK4 produces poly(3-hydroxybutyrate-co-3-hydroxyhexanoate) (PHBHHx) containing 3-hydroxybutyrate (3HB) and about 15 mol% 3-hydroxyhexanoate (3HHx) from dodecanoate. To study the factors affecting the monomer composition and PHBHHx content, genes encoding phasin (phaP), PHA synthase (phaC) and (R)-specific enoyl-CoA hydratase (phaJ) from Aeromonas punctata (formerly named Aeromonas caviae) were introduced individually or jointly into A. hydrophila 4AK4. The phaC gene increased 3HHx fraction more significantly than phaP, while phaJ had little effect. Expression of phaC alone increased the 3HHx fraction from 14 to 22 mol%. When phaC was co-expressed with phaP and phaJ, the 3HHx fraction increased from 14 to 34 mol%. Expression of phaP or phaC alone or with another gene enhanced PHBHHx content up to 64%, cell dry weight (CDW) as much as 4.4 gL(-1) and PHBHHx concentration to 2.7 gL(-1) after 48 h in shake flask culture. The results suggest that a higher PHA synthase activity could lead to a higher 3HHx fraction and PHBHHx content. Co-expression of phaJ with phaC or phaP would favor PHA accumulation, although over-expression of phaJ did not affect PHA synthesis much. In addition, inhibition of beta-oxidation by acrylate in A. hydrophila 4AK4 enhanced PHBHHx content. However, no monomers longer than 3HHx were detected. The results show that genetic modification of A. hydrophila 4AK4 enhanced PHBHHx production and altered monomer composition of the polymer.  相似文献   

12.
The recombinant Escherichia coli strain, equipped with the newly cloned Aeromonas PHA biosynthesis genes, could produce a terpolymer of 3-hydroxybutyrate (3HB), 3-hydroxyvalerate (3HV), and 3-hydroxyhexanoate (3HHx) [P(3HB-co-3HV-co-3HHx)] from dodecanoic acid plus odd carbon number fatty acid. In addition, the orf1 gene of Aeromonas hydrophila was found to play a critical role in assimilating the 3HV monomer and in regulating the monomer fraction in the terpolymer.  相似文献   

13.
In support of programs to identify polyhydroxyalkanoates with improved materials properties, we report on our efforts to characterize the mechanical and thermal properties of copolyesters of 3-hydroxybutyrate (3HB) and 3-hydroxyhexanoate (3HHx). The copolyesters, having molar fraction of 3HHx ranging from 2.5 to 35 mol % and average molecular weights ranging from 1.15 x 10(5) to 6.65 x 10(5), were produced by fermentation using Aeromonas hydrophila and a recombinant strain of Pseudomonas putida GPp104. The polymers were chloroform extracted and characterized by solution-state and solid-state nuclear magnetic resonance (NMR) spectroscopy and a variety of mechanical and thermal tests. Solution-state (1)H NMR data were used to determine polymer composition-of-matter, while solution-state (13)C NMR data provided polymer-sequence information. Solvent fractionation and NMR spectroscopic characterization of these polymers showed that polymers containing up to 9.5 mol % 3HHx had a Bernoullian compositional distribution. By contrast, polymers containing more than 9.5 mol % 3HHx had a bimodal polymer composition. Solvent fractionation of these 3HHx-rich polyesters produced two polymer fractions, each of which was again consistent with Bernoullian polymerization statistics. Solid-state NMR relaxation experiments provided insight into aging in poly(3HB-co-3HHx) copolymers, demonstrating increased polymer-chain motion with increasing 3HHx content. The elongation-to-break ratio in the polyesters increased with increasing molar fraction of 3HHx monomers. Aging properties of the poly(3HB-co-3HHx) copolymers were very similar to copolymers of 3HB and 3-hydroxyvalerate (3HV). However, poly(3HB-co-3HHx) exhibited increased activation energy to thermal degradation with increasing 3HHx content.  相似文献   

14.
The newly screened Aeromonas hydrophila produces copolymer consisting of 3-hydroxybutyrate (3HB) and 3-hydroxyhexanoate (3HHx). The characteristics of cell growth and polymer accumulation were examined using various carbon sources. P(3HB-co-3HHx) was produced from lauric acid and oleic acid only. P(3HB-co-3HHx) content can be increased by limitation of phosphorus. A maximal P(3HB-co-3HHx) content of 28.8 wt% could be obtained in flask culture. By applying the optimally designed nutrient feeding strategy, cell dry weight, P(3HB-co-3HHx) content, and 3HHx fraction obtained over the course of 43 h were 95.7 g/L, 45.2 wt%, and 17 mol%, respectively, resulting in a productivity of 1.01 g polyhydroxyalkanoate (PHA)/L. h.  相似文献   

15.
Industrial scale production of poly(3-hydroxybutyrate-co-3-hydroxyhexanoate)   总被引:12,自引:0,他引:12  
Large scale production of poly(3-hydroxybutyrate-co-3-hydroxyhexanoate) [P(3HB-co-3HHx)] by Aeromonas hydrophila 4AK4 was examined in a 20,000 l fermentor. Cells were first grown using glucose as a carbon source, and polyhydroxyalkanoate (PHA) biosynthesis was triggered by the addition of lauric acid under conditions of limited nitrogen or phosphorus. When cells first grown in a medium containing 50 g glucose l(-1) were further cultivated after the addition of 50 g lauric acid l(-1) under phosphorus limitation, a final cell concentration, PHA concentration and PHA content of 50 g l(-1), 25 g l(-1), and 50 wt%, respectively, were obtained in 46 h, equivalent to PHA productivity of 0.54 g l(-1)t h(-1). The copolymer produced was found to be a random copolymer, and the 3HHx fraction was 11 mol%.  相似文献   

16.
Fukui T  Abe H  Doi Y 《Biomacromolecules》2002,3(3):618-624
Recombinant Ralstonia eutropha capable of producing poly(3-hydroxybutyrate-co-3-hydroxyhexanoate) copolymer [P(3HB-co-3HHx)] from fructose was engineered by introduction of genes for crotonyl-CoA reductase (CCR) from Streptomyces cinnamonensis (ccrSc) and for PHA synthase and (R)-specific enoyl-CoA hydratase from Aeromonas caviae (phaC-JAc). In this recombinant strain, C6-acyl-CoA intermediates were provided via beta-ketothiolase-mediated elongation of butyryl-CoA, which was generated from crotonyl-CoA by the function of CCR. The recombinant strain could accumulate the copolyester up to 48 wt % of dry cell weight with 1.5 mol % of 3HHx fraction from fructose, when the expression of ccrSc under the control of the PBAD promoter was induced with 0.01% L-arabinose. The absence of L-arabinose or the deletion of ccrSc from the plasmid resulted in accumulation of poly(3-hydroxybutyrate) homopolymer, indicating the critical role of CCR in the formation of the 3-hydroxyhexanoate unit. Higher CCR activity obtained by the addition of a larger amount of L-arabinose did not affect the composition but reduced the intracellular content of the copolyester. The P(3HB-co-1.5 mol % 3HHx) copolyester produced from fructose by the recombinant R. eutropha showed relatively lower melting temperatures (150 degrees C and 161 degrees C) and lower crystallinity (48 +/- 5%) compared to those (175 degrees C and 60 +/- 5%) of P(3HB) homopolymer. It has been found that the incorporation of a small amount (1.5 mol %) of 3HHx units into P(3HB) sequences leads to a remarkable change in the solid-state properties of P(3HB) crystals. The present study demonstrates the potential of the engineered pathway for the production of copolyesters having favorable characteristics from inexpensive carbon resources.  相似文献   

17.
Aeromonas hydrophila CGMCC 0911 isolated from lake water was found to be able to synthesize a polyhydroxyalkanoate (PHA) copolymer (PHBHHx) consisting of 3-hydroxybutyrate (HB) and 4–6 mol% 3-hydroxyhexanoate (HHx). The wild-type bacterium accumulated 49% PHBHHx containing 6 mol% HHx in terms of cell dry weight (CDW) when grown on lauric acid for 48 h. When A. hydrophila CGMCC 0911 expressed the Acyl-CoA dehydrogenase gene (yafH) of Escherichia coli, the recombinant strain could accumulate 47% PHBHHx, while the HHx content reached 17.4 mol%. The presence of changing glucose concentration in the culture changed the HHx content both in wild type and recombinant A. hydrophila CGMCC 0911. When 5 g l–1 glucose was added to a culture containing 5 g l–1 lauric acid as co-substrate, 45% PHBHHx/CDW consisting of 8.8 mol% HHx was produced by wild-type A. hydrophila CGMCC 0911 compared with only 5% in the absence of glucose. When the recombinant A. hydrophila CGMCC 0911 was grown on a mixed substrate containing lauric acid and 8–10 g l–1 glucose, the HHx content could be further increased to 35.6 mol%. When the glucose concentration exceeded 10 g l–1, cell growth, PHA content and mole percentages of HHx in PHBHHx were significantly reduced.  相似文献   

18.
Polyhydroxyalkanoate (PHA) synthase genes (phaC) were cloned from two Aeromonas hydrophila strains named WQ and 4AK5, respectively. Both strains are able to produce PHBHHx copolyesters consisting of 3-hydroxybutyrate (3HB) and 3-hydroxyhexanoate (3HHx). Sequence analysis showed that there was only 2 bp difference between these two PHA synthase genes, corresponding to two-amino acid difference at positions of 437 and 458 of the two synthases. PHA productivity and its monomer content produced by A. hydrophila WQ and A. hydrophila 4AK5 were quite different. A. hydrophila WQ accumulated 33% PHBHHx of its cell dry weight (CDW) with 5 mol% 3HHx in the copolyester when cultured in lauric acid for 48 h. Yet A. hydrophila 4AK5 was able to produce 43% PHBHHx of the CDW with 14 mol% 3HHx under the same condition. Hetero-expression of PHA synthase genes of A. hydrophila WQ and A. hydrophila 4AK5, respectively, in Escherichia coli XL1-Blue led to PHBHHx accumulation of 24% and 39% of the CDW and the 3HHx content in PHBHHx were 6 and 15 mol%, respectively. This indicated that the function of these two PHA synthases were different due to these two different residues at positions of 437 and 458. Site specific mutation was carried out to change these two amino acid residues. Results showed that the changes on either of the two amino acids negatively affected the PHA productivity.  相似文献   

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