[1] |
徐志平. 复合诱变出芽短梗霉选育普鲁兰高产菌株[D]. 武汉:湖北大学, 2012.
|
|
Xu ZP. Composite mutagenesis budding Aureobasidium pullulan breeding high strain[D]. Wuhan:Hubei University, 2012.
|
[2] |
Singh RS, Kaur N, Rana V, et al. Pullulan:a novel molecule for biomedical applications[J]. Carbohydr Polym, 2017, 171:102-121.
doi: 10.1016/j.carbpol.2017.04.089
URL
|
[3] |
马再超. 海洋产黑色素短梗霉P16菌株产普鲁兰多糖的研究[D]. 青岛:中国海洋大学, 2015.
|
|
Ma ZC. Study on pullulan production by a marine yeast Aureobasidium melanogenum strain P16[D]. Qingdao:Ocean University of China, 2015.
|
[4] |
Singh RS, Kaur N, Rana V, et al. Recent insights on applications of pullulan in tissue engineering[J]. Carbohydr Polym, 2016, 153:455-462.
doi: 10.1016/j.carbpol.2016.07.118
URL
|
[5] |
于林艳, 张金华, 刘飞, 等. 普鲁兰糖无色素高产菌株的选育研究进展[J]. 中国生化药物杂志, 2015, 35(6):181-184.
|
|
Yu LY, Zhang JH, Liu F, et al. Rsearch progress on breeding of pullulan high-yield strain without melanin[J]. Chin J Biochem Pharm, 2015, 35(6):181-184.
|
[6] |
Hanin NA, Fitriasari PD. Identification of endophytic fungi from fruits and seeds of jambolana(Syzygium cuminiL.)skeels[J]. IOP Conf Ser:Earth Environ Sci, 2019, 276:012-060.
|
[7] |
Hartman D. Perfecting your spread plate technique[J]. J Microbiol Biol Educ, 2011, 12(2):204-205.
doi: 10.1128/jmbe.v12i2.324
URL
|
[8] |
胡娜娜, 李超, 王茜, 等. 北京地区油菜软腐病病原菌的鉴定[J]. 微生物学报, 2015, 55(10):1253-1263.
|
|
Hu NN, Li C, Wang Q, et al. Identification of the pathogen of rape soft rot in Beijing area[J]. Acta Microbiol Sin, 2015, 55(10):1253-1263.
|
[9] |
王永康, 宋晓丹, 李晓荣, 等. 聚苹果酸生产菌出芽短梗霉CCTCC M2012223的全基因组测序及序列分析[J]. 微生物学报, 2017, 57(1):97-108.
|
|
Wang YK, Song XD, Li XR, et al. Complete genome sequencing and sequence analysis of the poly malic acid production by Aureobasiduim sp. CCTCC M2012223[J]. Acta Microbiol Sin, 2017, 57(1):97-108.
|
[10] |
朱艳蕾. 细菌生长曲线测定实验方法的研究[J]. 微生物学杂志, 2016, 36(5):108-112.
|
|
Zhu YL. Experimental method of bacteria growth curve determination[J]. J Microbiol, 2016, 36(5):108-112.
|
[11] |
沈琦, 张殿鹏, 郝雅荞, 等. 出芽短梗霉新菌株RM1603产普鲁兰多糖条件优化及多糖分析[J]. 生物技术通讯, 2019, 30(3):385-390.
|
|
Shen Q, Zhang DP, Hao YQ, et al. Optimum conditions and identification of pullulan produced by a new finding strain Aureobasidium pullulans RM1603[J]. Lett Biotechnol, 2019, 30(3):385-390.
|
[12] |
An C, Ma SJ, Chang F, et al. Efficient production of pullulan by Aureobasidium pullulans grown on mixtures of potato starch hydrolysate and sucrose[J]. Braz J Microbiol, 2017, 48(1):180-185.
doi: 10.1016/j.bjm.2016.11.001
URL
|
[13] |
Duan X, Chi Z, Wang L, et al. Influence of different sugars on pullulan production and activities of α-phosphoglucose mutase, UDPG-pyrophosphorylase and glucosyltransferase involved in pullulan synjournal in Aureobasidium pullulans Y68[J]. Carbohydr Polym, 2008, 73(4):587-593.
doi: 10.1016/j.carbpol.2007.12.028
URL
|
[14] |
Pang N, Zhang JQ, Qi J, et al. Research status of microbial exopolysaccharide and its metabolic pathway[J]. Adv Microbiol, 2017, 6(2):27-34.
doi: 10.12677/AMB.2017.62004
URL
|
[15] |
Meng M, Cheng D, Han L, et al. Isolation, purification, structural analysis and immunostimulatory activity of water-soluble polysaccharides from Grifola Frondosa fruiting body[J]. Carbohydr Polym, 2017, 157:1134-1143.
doi: 10.1016/j.carbpol.2016.10.082
URL
|
[16] |
Guo J, Huang S, Chen Y, et al. Discovering the role of the apolipoprotein gene and the genes in the putative pullulan biosynjournal pathway on the synjournal of pullulan, heavy oil and melanin in Aureobasidium pullulans[J]. World J Microbiol Biotechnol, 2018, 34(1):11.
doi: 10.1007/s11274-017-2398-z
URL
|
[17] |
An C, Ma SJ, Xue WJ, et al. Comparative study of different molecular weight pullulan productions by Aureobasidium pullulans CGMCC No. 11602[J]. 3 Biotech, 2019, 9(4):156.
doi: 10.1007/s13205-019-1680-1
URL
|
[18] |
Ma ZC, Fu WJ, Liu GL, et al. High-level pullulan production by Aureobasidium pullulans var. melanogenium P16 isolated from mangrove system[J]. Appl Microbiol Biotechnol, 2014, 98(11):4865-4873.
doi: 10.1007/s00253-014-5554-5
URL
|
[19] |
罗祥莲, 张殿朋, 王翰, 等. 出芽短梗霉Aureobasidium sp. SRF的菌株特性分析及胞外多糖结构鉴定[J]. 微生物学杂志, 2020, 40(1):15-25.
|
|
Luo XL, Zhang DP, Wang H, et al. Strain feature analysis and identification of extracellular polysaccharide structure of Aureobasidium sp. SRF[J]. J Microbiol, 2020, 40(1):15-25.
|
[20] |
Chen X, Wang QQ, Liu NN, et al. A glycosyltransferase gene responsible for pullulan biosynjournal in Aureobasidium melanogenum P16[J]. Int J Biol Macromol, 2017, 95:539-549.
doi: S0141-8130(16)31113-8
pmid: 27889342
|
[21] |
Mari M, Martini C, Guidarelli M, et al. Postharvest biocontrol of Monilinia laxa, Monilinia fructicola and Monilinia fructigena on stone fruit by two Aureobasidium pullulans strains[J]. Biol Control, 2012, 60(2):132-140.
doi: 10.1016/j.biocontrol.2011.10.013
URL
|
[22] |
Rathnayake RMSP, Savocchia S, Schmidtke LM, et al. Characterisation of Aureobasidium pullulans isolates from Vitis vinifera and potential biocontrol activity for the management of bitter rot of grapes[J]. Eur J Plant Pathol, 2018, 151(3):593-611.
doi: 10.1007/s10658-017-1397-0
URL
|
[23] |
Roberti R, Di Francesco A, Innocenti G, et al. Potential for biocontrol of Pleurotus ostreatus green mould disease by Aureobasidium pullulans De Bary(Arnaud)[J]. Biol Control, 2019, 135:9-15.
doi: 10.1016/j.biocontrol.2019.04.016
URL
|
[24] |
巩文峰, 李月飞, 上官妮妮, 等. 出芽短梗霉对苹果采后灰霉病的防治[J]. 中国生物防治学报, 2016, 32(2):251-257.
|
|
Gong WF, Li YF, Shangguan NN, et al. Control of apple postharvest gray mold by Aureobasidium pullulans[J]. Chin J Biol Control, 2016, 32(2):251-257.
|