CN112626051A - 一种1,3/1,4-木聚糖酶mlx1034及其编码基因与应用 - Google Patents
一种1,3/1,4-木聚糖酶mlx1034及其编码基因与应用 Download PDFInfo
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- CN112626051A CN112626051A CN202110074436.5A CN202110074436A CN112626051A CN 112626051 A CN112626051 A CN 112626051A CN 202110074436 A CN202110074436 A CN 202110074436A CN 112626051 A CN112626051 A CN 112626051A
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- Prior art keywords
- xylanase
- mlx1034
- xylan
- gene
- bacillus
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Abstract
本发明涉及一种1,3/1,4‑木聚糖酶MLX1034及其编码基因与应用。本发明中的1,3/1,4‑木聚糖酶MLX1034,分离自极地杆菌(Polaribacter sp.)Q13,氨基酸序列如SEQ ID NO.1所示,编码基因的核苷酸序列如SEQ ID NO.2所示。本发明中的1,3/1,4‑木聚糖酶MLX1034可以高效、特异性地降解1,3/1,4‑木聚糖,产生聚合度大于1的低聚木糖,并且理化性质稳定,可以在室温下进行反应,适合广泛应用于红藻低聚木糖的工业生产中,能够有效降低生产过程中的能源成本。
Description
技术领域
本发明涉及一种1,3/1,4-木聚糖酶MLX1034及其编码基因与应用,属于生物技术技术领域。
背景技术
木聚糖是植物半纤维素的主要成分,其含量仅次于纤维素。高等植物细胞壁中的木聚糖是复杂的多聚五碳糖,其骨架是由木糖基团通过β-1,4-糖苷键连接而成,一些取代基通过O2或O3原子与骨架相连,常见的取代基团包括阿拉伯糖基、半乳糖基、葡萄糖醛酸基等。因此,完全水解此类木聚糖需要多种酶的共同参与,其中内切型1,4-木聚糖酶起主要作用。
低聚木糖是指由2~7个木糖分子构成的功能性木寡糖,大量研究表明低聚木糖对肠道内有益菌(如双歧杆菌)具有选择性增殖作用,能够改善肠道菌群、增强机体免疫力,具有降血压、降低血糖和胆固醇以及抗癌等功能,因而在食品、医药、化妆品以及饲料添加剂等领域被广泛应用。目前,低聚木糖主要通过生物酶法催化或化学催化从玉米芯、麦麸、蔗渣等原料中进行制备。
海洋环境中的木聚糖主要来源于红藻和绿藻的细胞壁,与高等植物中的木聚糖在结构上存在明显差异。海洋藻类来源的木聚糖均为直链同型木聚糖,只由木糖基团通过β-1,3-糖苷键或β-1,4-糖苷键连接而成,其类型包括1,3-木聚糖、1,4-木聚糖以及混合糖苷键的1,3/1,4-木聚糖。在红藻中,掌形藻目(Palmariales)和海索面目(Nemaliales)藻类细胞壁中的多糖主要为1,3/1,4-木聚糖。其中,掌形藻目中的掌状红皮藻Palmaria palmata是一种著名的冷水性经济海藻,富含膳食纤维、蛋白质及维生素等,其藻体内某些化合物具有抗炎、抗氧化活性功能,作为海洋食品备受人们青睐。从掌状红皮藻Palmaria palmata中提取的水溶性1,3/1,4-木聚糖的结构为:1,4-木聚糖骨架中无序地分布着不连续的β-1,3-木糖苷键,β-1,3-木糖苷键与β-1,4-木糖苷键的比例约为1:4。目前,掌状红皮藻Palmariapalmata来源的1,3/1,4-木聚糖已经商品化。
由于藻类巨大的初级生产力,海洋中孕育着巨大的具有独特结构的1,3/1,4-木聚糖资源,利用这些资源可以制备区别于现有产品的新型低聚木糖,具有较好的应用前景。但是,目前仍缺乏高效的1,3/1,4-木聚糖酶来制备低聚木糖。
发明内容
针对现有技术的不足,本发明提供一种1,3/1,4-木聚糖酶MLX1034及其编码基因与应用。
本发明技术方案如下:
一种1,3/1,4-木聚糖酶MLX1034,氨基酸序列如SEQ ID NO.1所示。
根据本发明优选的,所述1,3/1,4-木聚糖酶MLX1034为内切酶,来自极地杆菌(Polaribacter sp.)Q13,极地杆菌Q13于2020年12月28日保藏于中国典型培养物保藏中心,保藏地址:湖北省武汉市武昌区八一路珞珈山,保藏编号:CCTCC NO:M 2020985。
本发明的1,3/1,4-木聚糖酶MLX1034降解1,3/1,4-木聚糖时,终产物为聚合度大于1的低聚木糖且主要为木六糖。
上述1,3/1,4-木聚糖酶MLX1034的编码基因,核苷酸序列如SEQ ID NO.2所示。
根据本发明优选的,所述1,3/1,4-木聚糖酶MLX1034的编码基因来源于极地杆菌(Polaribacter sp.)Q13,极地杆菌Q13于2020年12月28日保藏于中国典型培养物保藏中心,保藏地址:湖北省武汉市武昌区八一路珞珈山,保藏编号:CCTCC NO:M 2020985。
一种重组表达载体,该重组表达载体包含有1,3/1,4-木聚糖酶MLX1034的编码基因。
一种重组细胞,该重组细胞包含有1,3/1,4-木聚糖酶MLX1034的编码基因。
上述1,3/1,4-木聚糖酶MLX1034和/或1,3/1,4-木聚糖酶MLX1034的编码基因在1,3/1,4-木聚糖降解及低聚木糖制备中的应用。
本发明的技术特点:
本发明中的极地杆菌(Polaribacter sp.)Q13分离自从南极纳尔逊岛的红藻样品表面,结合极地杆菌(Polaribacter sp.)Q13的基因组及其在1,3/1,4-木聚糖培养基中的胞外蛋白组数据,确定了MLX1034为极地杆菌(Polaribacter sp.)Q13所分泌的胞外1,3/1,4-木聚糖酶。MLX1034的编码基因共1017bp,编码338个氨基酸残基。MLX1034的序列分析表明,该蛋白预测分子量为39.1kDa,含N端信号肽(Met1-Ser27),仅具有一个糖苷水解酶第26家族(GH26)催化结构域,是GH26家族中一个尚未报道的具有新的序列的1,3/1,4-木聚糖酶。根据其基因序列设计引物并利用PCR技术从菌株Q13的基因组DNA中克隆了MLX1034的基因并重组至大肠杆菌,获得了MLX1034的重组表达菌株。培养重组表达菌株并分离纯化得到1,3/1,4-木聚糖酶MLX1034。1,3/1,4-木聚糖酶MLX1034仅对1,3/1,4-木聚糖具有很强的降解活性,对1,3-木聚糖的活性极低,对1,4-木聚糖没有活性,说明1,3/1,4-木聚糖酶MLX1034是一个1,3/1,4-木聚糖特异性降解酶。1,3/1,4-木聚糖酶MLX1034的最适酶活温度为40℃,在pH 7.0的磷酸缓冲液中活性最高,表明1,3/1,4-木聚糖酶MLX1034是一个中温、中性酶。对1,3/1,4-木聚糖酶MLX1034酶解1,3/1,4-木聚糖后的产物进行高效液相色谱分析发现,该酶是一个严格的内切型木聚糖酶,其酶解产物在不同的反应时间点均主要为木六糖,无木糖产生,是从1,3/1,4-木聚糖中制备低聚木糖的有效工具酶。
有益效果:
1、本发明提供的1,3/1,4-木聚糖酶MLX1034,来自极地杆菌(Polaribacter sp.)Q13,易于异源表达与纯化,可以高效、特异性地降解1,3/1,4-木聚糖,产生聚合度大于1的低聚木糖,并且理化性质稳定,可以在室温下进行反应,适合广泛应用于红藻低聚木糖的工业生产中,能够有效降低生产过程中的能源成本。
2、本发明提供的1,3/1,4-木聚糖酶MLX1034在降解1,3/1,4-木聚糖时,在各个时间点的酶解产物的主要成分均为木六糖且无木糖产生,因此在低聚木糖的生产工艺优化过程中具有明显的优势。
附图说明:
图1为异源表达纯化后的1,3/1,4-木聚糖酶MLX1034的SDS-PAGE电泳图;
图中:M:蛋白质分子量标准品(marker);1034:纯化后的1,3/1,4-木聚糖酶MLX1034;
图2为温度对1,3/1,4-木聚糖酶MLX1034的活性影响曲线;
图3为温度对1,3/1,4-木聚糖酶MLX1034的稳定性影响曲线;
图4为pH对1,3/1,4-木聚糖酶MLX1034的活性影响曲线;
图5为pH对1,3/1,4-木聚糖酶MLX1034的稳定性影响曲线;
图6为1,3/1,4-木聚糖酶MLX1034对1,3/1,4-木聚糖的降解产物的高效液相色谱(HPLC)图;
图中:Control:对照组,即无酶反应体系。
具体实施方式
下面结合附图和实施例对本发明作进一步说明,但本发明所保护范围不限于此。
生物材料来源:
一株极地杆菌(Polaribacter sp.)Q13,2020年12月28日保藏于中国典型培养物保藏中心,保藏地址:湖北省武汉市武昌区八一路珞珈山,保藏编号:CCTCC NO:M 2020985。
1,3/1,4-木聚糖:来源于掌状红藻,1,3-/1,4-≈1/4,Elicityl公司有售。
1,3-木聚糖:抽提自海葡萄。
1,4-连接的小麦阿拉伯木聚糖和山毛榉木聚糖:Megazyme公司有售。
TYS液体培养基:0.5wt%蛋白胨,0.1wt%酵母粉,3wt%人工海水配制,pH 7.8。
淡水LB液体培养基:1wt%蛋白胨,0.5wt%酵母粉,1wt%NaCl,三蒸水配制。
淡水LB固体培养基:1wt%蛋白胨,0.5wt%酵母粉,1wt%NaCl,1.5wt%琼脂粉,三蒸水配制。
实施例1、极地杆菌(Polaribacter sp.)Q13的获得
1、菌株初筛
将3g南极纳尔逊岛采集的红藻样品置于无菌平皿中,用20mL无菌海水冲洗表面附着细菌,并梯度稀释10~105倍;将稀释后的样品通过常规的稀释法或划线法均匀接种涂布于TYS固体培养基,于20℃恒温培养,直到TYS固体培养基上生长出形态各异的单菌落,将各个单菌落重复划线接种于TYS固体培养基,直至纯化得到单菌落,使用60%(v/v)甘油(3:7;
甘油:菌液)将各个单菌落保存在-80℃。
2、菌株复筛
将上述保种的单菌落划线接种至1,3/1,4-木聚糖固体培养基,于20℃恒温培养,分离能够降解利用1,3/1,4-木聚糖的菌株,保种记为Q13。
通过初筛和复筛,筛选到菌株Q13可以在1,3/1,4-木聚糖固体培养基上生长培养3~4天后,形成黄色、湿润、表面光滑、边缘规则的圆形菌落,为革兰氏阴性细菌,所述菌株Q13经鉴定为极地杆菌(Polaribacter sp.)。
上述极地杆菌(Polaribacter sp.)Q13,2020年12月28日保藏于中国典型培养物保藏中心,保藏地址:湖北省武汉市武昌区八一路珞珈山,保藏编号:CCTCC NO:M 2020985。
实施例2、1,3/1,4-木聚糖酶MLX1034编码基因的克隆及重组质粒载体的构建
1、极地杆菌(Polaribacter sp.)Q13基因组DNA的提取和全基因组测序
将极地杆菌(Polaribacter sp.)Q13接种于TYS液体培养基,于20℃培养24h,取1mL菌液,收集菌体后参照百泰克公司基因组提取试剂盒说明书提取基因组DNA(常规提取步骤)。全基因组测序由华大基因完成。
2、引物设计与合成
根据全基因组测序得到的MLX1034基因序列及其编码的氨基酸序列信息,使用SignalP-5.0(http://www.cbs.dtu.dk/services/SignalP/)预测MLX1034的信号肽为Met1-Ser27,删除该信号肽的编码序列后,设计如下两条引物:
F:5’-AAGAAGGAGATATACATATGCAAGAGGTAAAACCTCGTTTT-3’
R:5’-TGGTGGTGGTGGTGCTCGAGTTTATTATTAAGGTGAATAAA-3’
引物由华大基因合成。
3、PCR扩增基因序列及扩增产物的回收
(1)以F和R为引物,以菌株Q13基因组DNA为模板,进行PCR扩增,扩增程序为:95℃预变性2min;95℃变性20sec,55℃退火20sec,72℃延伸45sec,30个循环;72℃延伸10min。
PCR扩增体系(50μL)如下:
(2)对PCR扩增产物进行1wt%琼脂糖凝胶电泳,然后用Omega公司的DNA回收试剂盒按照其说明回收扩增出的DNA片段。
4、重组质粒载体的构建
(1)酶切克隆载体
使用限制性内切酶NdeI和XhoI对pET-22b载体(购自Novagen公司)进行双酶切,并对酶切产物进行1wt%琼脂糖凝胶电泳,然后用Omega公司的DNA回收试剂盒按照其说明回收线性化的pET-22b载体。
(2)DNA片段与线性化的载体连接
使用In-Fusion(购自TaKaRa公司)将扩增出的DNA片段连接到线性化的pET-22b载体上。
连接体系(2.5μL)如下:
DNA片段 1μL
线性化pET-22b 1μL
5x In-Fusion 0.5μL
(3)将表达载体转化至大肠杆菌DH5α中
将表达载体按照《分子克隆实验指南》上的热激转化方法转化至大肠杆菌BL21(DE3)感受态细胞,具体操作为:将2.5μL连接体系加入至50μL大肠杆菌DH5α感受态细胞(购自TransGen)中,冰中静置30min;42℃热激90sec;快速转至冰中静置10min;加入200μL淡水LB液体培养基,37℃水浴1h;将菌体涂布至含有终浓度100μg/mL氨苄青霉素的淡水LB固体平板上,37℃过夜培养。
将转化子送至华大基因进行测序验证,测序结果表明1,3/1,4-木聚糖酶MLX1034编码基因片段成功插入到pET-22b的酶切位点NdeI和XhoI之间,插入方向正确,且未发生碱基突变、缺失以及增加的情况,将重组质粒载体命名为pET-22b-MLX1034。
实施例3:1,3/1,4-木聚糖酶MLX1034的异源表达及分离纯化
1、1,3/1,4-木聚糖酶MLX1034在大肠杆菌BL21(DE3)中的异源表达
(1)将构建好的重组质粒载体pET-22b-MLX1034按照《分子克隆实验指南》上的热激转化方法转化至大肠杆菌BL21(DE3)感受态细胞,并涂布于含100μg/mL氨苄青霉素的淡水LB固体平板上,37℃过夜培养;
(2)在平板上挑取单菌落,接种至含100μg/mL氨苄青霉素的淡水LB液体培养基中,37℃过夜培养,得到种子液;
(3)将种子液按1%(v/v)的接种量转接至含100μg/mL氨苄青霉素的淡水LB液体培养基中,在37℃、180rpm条件下培养至OD600nm约为0.8~1.0时,加入IPTG(0.1mM),20℃、100rpm诱导16h,得到菌液。
(4)将菌液在4℃、7000rpm离心5min,收集菌体。
2、1,3/1,4-木聚糖酶MLX1034的分离纯化
(1)粗酶液的制备:将菌体重悬于Lysis buffer(50mM Tris-HCl,100mM NaCl,pH8.0)中,使用压力破碎仪破碎细胞,于4℃、12000rpm离心60min,所得上清即为粗酶液;
(2)镍亲和层析
镍亲和柱用Lysis buffer预处理后,将粗酶液上样至镍亲和柱,然后用Washbuffer(50mM Tris-HCl,100mM NaCl,10mM Imidazole,pH 8.0)冲洗10个柱体积,最后用Elution buffer(50mM Tris-HCl,100mM NaCl,250mM Imidazole,pH 8.0)洗脱目的蛋白;
(3)凝胶过滤层析
用GF buffer(10mM Tris-HCl,100mM NaCl,pH 8.0)将Superdex 200Prep grade凝胶过滤层析柱平衡后,将镍亲和层析纯化后的样品浓缩后上样至层析柱,使用GF buffer洗脱;收集目的蛋白峰的峰尖样品,加10%甘油后-80℃保存备用;
(4)蛋白纯度检测
将纯化后的1,3/1,4-木聚糖酶MLX1034进行SDS-PAGE电泳检测纯度,电泳结果如图1所示。
由图1可知,纯化后1,3/1,4-木聚糖酶MLX1034在电泳凝胶上的位置与预测的分子量吻合,因此在大肠杆菌BL21(DE3)中成功异源表达了1,3/1,4-木聚糖酶MLX1034。
实施例4:1,3/1,4-木聚糖酶MLX1034的酶学性质分析
1,3/1,4-木聚糖酶MLX1034酶活性测定方法如下:
标准反应体系:90μL木聚糖底物(10mg/mL,溶于20mM pH 7.0的磷酸缓冲液)、10μL1,3/1,4-木聚糖酶MLX1034酶液。
酶活测定方法:采用二硝基水杨酸(DNS)法测定酶活性。具体操作为:将反应体系在40℃下反应10min后,加入100μL显色剂DNS;然后沸水浴5min,加入500μL三蒸水,使用酶标仪测定OD550nm;以添加加热失活1,3/1,4-木聚糖酶MLX1034酶液的体系作为空白对照。
一个酶活力单位(U)定义为:此反应体系下,每分钟产生1μmol木糖所需的酶量。用不同浓度的木糖绘制产物浓度标准曲线。
依据以上酶活反应体系及测定方法,分析1,3/1,4-木聚糖酶MLX1034的酶学性质。
(1)底物特异性分析
以1,3/1,4-木聚糖、1,3-木聚糖以及1,4-连接的小麦阿拉伯木聚糖和山毛榉木聚糖为底物,测定1,3/1,4-木聚糖酶MLX1034对不同类型木聚糖的活性,分析1,3/1,4-木聚糖酶MLX1034的底物特异性,结果如表1所示。
由表1可知,1,3/1,4-木聚糖酶MLX1034仅对1,3/1,4-木聚糖具有很强的降解活性,比活力为224.0U/mg;对1,3-木聚糖的活性极低,仅仅为0.04U/mg;对1,4-木聚糖(包括小麦阿拉伯木聚糖及山毛榉木聚糖)没有活性。
表1 MLX1034的底物特异性
(2)温度对酶活性及稳定性的影响
温度对酶活性的影响:在0~60℃范围内,反应体系分别在0℃、10℃、20℃、30℃、40℃、50℃、60℃条件下反应10min,测定1,3/1,4-木聚糖酶MLX1034在不同温度下的酶活性,将最高酶活性定义为100%来计算相对活性,结果如图2所示。
温度对酶稳定性的影响:将1,3/1,4-木聚糖酶MLX1034酶液分别在40℃、50℃、60℃下温育,在0~60min范围内,每隔10min测定1,3/1,4-木聚糖酶MLX1034的残余活性,将保温0min的酶活性定义为100%来计算保温不同时间的残余活性,结果如图3所示。
由图2和图3可知,1,3/1,4-木聚糖酶MLX1034在30~45℃内保持酶活性在80%以上,在40℃时相对活性最高;1,3/1,4-木聚糖酶MLX1034在40℃下相对稳定,60min内一直保持酶残余活性在80%以上;在50℃下,酶残余活性会随着保温时间延长,降低至40%以下;在60℃下极不稳定,5min内就会快速失活。
(3)pH对酶活性及稳定性的影响
pH对酶活性的影响:将1,3/1,4-木聚糖分别溶于20mM的柠檬酸钠缓冲液(pH 3.0~6.0)、20mM的PBS缓冲液(pH 6.0~8.0)、20mM的Tris-HCl缓冲液(pH 8.0~9.0)、20mM的甘氨酸-氢氧化钠缓冲液(pH 9.0~11.0)并配制反应体系。反应体系在40℃下反应10min,测定1,3/1,4-木聚糖酶MLX1034在不同pH下的酶活性,将最高酶活性定义为100%来计算相对活性,结果如图4所示。
pH对酶稳定性的影响:将反应缓冲液和1,3/1,4-木聚糖酶MLX1034酶液按照体积比49:1(体积比)的比例混合,反应缓冲液包括20mM的柠檬酸钠缓冲液(pH 3.0~6.0)、20mM的PBS缓冲液(pH 6.0~8.0)、20mM的Tris-HCl缓冲液(pH 8.0~9.0)、20mM的甘氨酸-氢氧化钠缓冲液(pH 9.0~11.0)。在4℃下温育1h,然后测定1,3/1,4-木聚糖酶MLX1034的残余活性,将最高酶活性定义为100%来计算不同pH下的残余活性,结果如图5所示。
由图4和图5可知,1,3/1,4-木聚糖酶MLX1034在pH为7时相对活性最高;1,3/1,4-木聚糖酶MLX1034在在酸性环境(pH 3.0~4.0)下不稳定,但在pH5.0~11.0条件下能够稳定存在。
实施例5:1,3/1,4-木聚糖酶MLX1034对1,3/1,4-木聚糖的降解模式分析
将1,3/1,4-木聚糖(5mg/mL,溶于20mM pH7.0的磷酸缓冲液)、1,3/1,4-木聚糖酶MLX1034酶液按照99:1(体积比)的比例混合,在30℃下反应,分别在反应6min,10min,1h,24h后取出反应液,将反应液沸水浴5min终止反应,再使用0.22μm滤膜过滤反应液,得到降解产物。
将降解产物进行高效液相色谱(HPLC)分析,高效液相色谱(HPLC)分析柱为Superdex 30 Increase 10/300GL(购自GE Healthcare公司),检测器为蒸发光检测器(ELSD),流动相为三蒸水,以1,4-木寡糖(1,4X1-X6)为标准品粗略地标定保留时间,结果如图6所示。
由图6可知,本发明提供的1,3/1,4-木聚糖酶MLX1034为内切型木聚糖酶,降解产物为聚合度大于1的低聚木糖,主要成分为木六糖;并且在反应0~24h内的各反应时间点,只产生低聚木糖,无木糖产生。
SEQUENCE LISTING
<110> 山东大学
<120> 一种1,3/1,4-木聚糖酶MLX1034及其编码基因与应用
<160> 2
<170> PatentIn version 3.5
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<213> 1,3/1,4-木聚糖酶MLX1034
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Arg Phe Asn Tyr Asn Ala Lys Tyr Glu Pro Glu Lys Gly Ile Tyr His
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Claims (7)
1.一种1,3/1,4-木聚糖酶MLX1034,其特征在于,氨基酸序列如SEQ ID NO.1所示。
2.如权利要求1所述的1,3/1,4-木聚糖酶MLX1034,其特征在于,所述1,3/1,4-木聚糖酶MLX1034为内切酶,来自极地杆菌(Polaribacter sp.)Q13,极地杆菌Q13于2020年12月28日保藏于中国典型培养物保藏中心,保藏地址:湖北省武汉市武昌区八一路珞珈山,保藏编号:CCTCC NO:M 2020985。
3.权利要求1所述的1,3/1,4-木聚糖酶MLX1034的编码基因,其特征在于,核苷酸序列如SEQ ID NO.2所示。
4.如权利要求3所述的编码基因,其特征在于,所述1,3/1,4-木聚糖酶MLX1034的编码基因来源于极地杆菌(Polaribacter sp.)Q13,极地杆菌Q13于2020年12月28日保藏于中国典型培养物保藏中心,保藏地址:湖北省武汉市武昌区八一路珞珈山,保藏编号:CCTCC NO:M 2020985。
5.一种重组表达载体,其特征在于,所述重组表达载体包含有1,3/1,4-木聚糖酶MLX1034的编码基因。
6.一种重组细胞,其特征在于,所述重组细胞包含有1,3/1,4-木聚糖酶MLX1034的编码基因。
7.权利要求1所述1,3/1,4-木聚糖酶MLX1034和/或权利要求2所述1,3/1,4-木聚糖酶MLX1034的编码基因在1,3/1,4-木聚糖降解及低聚木糖制备中的应用。
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