成果/Result

生物柴油树种油脂脂肪酸组成对燃料特性的影响被引量：47收藏 分享

作者：王利兵[1,2] 于海燕[1] 贺晓辉[3] 刘瑞英[4]

机构：中国林业科学研究院林业研究所;中国林业科学研究院林业新技术研究所;鄂尔多斯市林业治沙科学研究所;乌兰察布市职业技术学校

来源：《燃料化学学报》  2012

关键词：木本植物  生物柴油  脂肪酸组成  燃料特性  

摘要：以目前中国主要开发或具有开发潜能的10种生物柴油树种为研究对象,分析其果实或种子油脂脂肪酸组成对合成生物柴油燃料特性的影响。结果表明,木本植物生物柴油产品十六烷值、碘值、氧化安定性等燃料特性主要由原料油脂肪酸的不饱和度决...

其他来源数据库：万方期刊数据库同方期刊数据库

下载全文在线阅读

三种山杏种子生物柴油特征评价被引量：20收藏 分享

作者：王利兵[1]

机构：中国林业科学研究院林业研究所林业新技术研究所

来源：《农业工程学报》  2011

关键词：生物柴油  脂肪酸  试验  山杏  优树  含油率  

摘要：对中国分布广泛的3种山杏27株优树进行了测试和分析,测试分析指标主要包括山杏种子的出仁率、杏仁含油率、杏核含油率、脂肪酸组成及其作为生物柴油的几个重要特征指标。研究表明3种山杏杏仁的含油率分别为西伯利亚杏(Armenia...

下载全文在线阅读

Transcriptome and Co-Expression Network Analyses Identify the Molecular Signatures Underlying Drought Resistance in Yellowhorn被引量：8收藏 分享

作者：Liu, Xiaojuan[1] Cui, Yifan[1] Wu, Zhiyan[2] Zhao, Yang[1] Hu, Xiaoyu[1]

机构：Chinese Acad Forestry;Chifeng Acad Forestry

来源：FORESTS  2020

关键词：drought   transcriptome   DEGs   wEIghted gene co-expression network analysis (WGCNA)   hub genes  

Transcriptome Analysis of Apricot Kernel Pistils Reveals the Mechanisms Underlying ROS-Mediated Freezing Resistance被引量：2收藏 分享

作者：Liu, Xiaojuan[1] Yang, Yingying[1] Xu, Huihui[1] Yu, Dan[1] Bi, Quanxin[1]

机构：Chinese Acad Forestry

来源：FORESTS  2022

关键词：freezing stress   apricot kernel   transcriptome   transcription factors   ROS   regulatory network  

Physiological and transcriptome analysis provided insights for the response of yellowhorn to drought stress被引量：0收藏 分享

作者：Yang, Yingying[1] Liu, Xiaojuan[1] Xu, Huihui[1] Ban, Zhuo[1] Zhao, Ziquan[1]

机构：Chinese Acad Forestry

来源：TREES-STRUCTURE AND FUNCTION  2024

关键词：Yellowhorn   Drought stress   Physiological traits   Transcriptome   DEGs   Co-expression network  

Integrated transcriptomics and metabolomics analysis to characterize the optimal picking time in yellowhorn (Xanthoceras sorbifolium) flowers被引量：0收藏 分享

作者：Wang, Mengke[1] Wang, Xi[1] Xu, Huihui[1] Liu, Xiaojuan[1] Bi, Quanxin[1]

机构： State Key Laboratory of Tree Genetics and Breeding

来源：Industrial Crops and Products  2022

关键词：Flavonoid   Flowering   Petal colour   Yellowhorn  

Using lipidomics to reveal details of lipid accumulation in developing Siberian apricot (Prunus sibirica L.) seed kernels被引量：0收藏 分享

作者：Mai, Yiting[1] Huo, Kaisen[1] Yu, Haiyan[2] Zhou, Nan[1] Shui, Lanya[1]

机构： Key Laboratory of Tropical Biological Resources of Ministry of Education; State Key Laboratory of Tree Genetics and Breeding; Key Laboratory of Genetics and Germplasm Innovation of Tropical Special Forest Trees and Ornamental Plants

来源：GCB Bioenergy  2020

关键词：Biochemistry - Biodiesel - Glycerol - Phospholipids - Polyunsaturated fatty acids  

Transcriptomic analysis revealed the mechanism of oil dynamic accumulation during developing Siberian apricot (Prunus sibirica L.) seed kernels for the development of woody biodiesel被引量：0收藏 分享

作者：Niu, Jun[1] An, Jiyong[1] Wang, Libing[2] Fang, Chengliang[3] Ha, Denglong[3]

机构： College of Biological Sciences and Biotechnology; Research Institute of Forestry; Jigongshan National Nature Reserve; Liaocheng Food and Drug Administration

来源：Biotechnology for Biofuels  2015

关键词：Dynamics - Quality control - Polymerase chain reaction - Transcription - Fatty acids  

Comprehensive evaluation of fuel properties and complex regulation of intracellular transporters for high oil production in developing seeds of Prunus sibirica for woody biodiesel 06 Biological Sciences 0607 Plant Biology被引量：0收藏 分享

作者：Wang, Jia[1] Lin, Weijun[2] Yin, Zhongdong[1] Wang, Libing[3] Dong, Shubin[1]

机构： Beijing Advanced Innovation Center for Tree Breeding by Molecular Design; Institute of Botany; Research Institute of Forestry

来源：Biotechnology for Biofuels  2019

关键词：Biodiesel - Carbon - Cytology - Feedstocks - Forestry - Metabolites - Petroleum industry - Petroleum prospecting - Petroleum reservoir evaluation - Plants (botany) - Predictive analytics - Quality control - Seed - Synthetic fuels  

Oil content, fatty acid composition and biodiesel properties among natural provenances of Siberian apricot (Prunus sibirica L.) from China被引量：0收藏 分享

作者：Ma, Yunxia[1,2] Wang, Shaoxiong[1] Liu, Xiaojuan[1] Yu, Haiyan[1] Yu, Dan[1]

机构： State Key Laboratory of Tree Genetics and Breeding; College of Desert Control Science and Engineering

来源：GCB Bioenergy  2021

关键词：LinolEIc acid - Oils and fats - Seed - Polyunsaturated fatty acids - Monounsaturated fatty acids - Saturated fatty acids  

Provenance variations in kernel oil content, fatty acid profile and biodiesel properties of Xanthoceras sorbifolium Bunge in northern China被引量：0收藏 分享

作者：Ma, Yunxia[1,2] Bi, Quanxin[1] Li, Gangtie[2] Liu, Xiaojuan[1] Fu, Guanghui[1]

机构： State Key Laboratory of Tree Genetics and Breeding; College of Desert Control Science and Engineering

来源：Industrial Crops and Products  2020

关键词：Biodiesel - Crops - Gas chromatography - Gas oils - Hierarchical clustering - Monounsaturated fatty acids - Oils and fats  

Chromosome-Scale Cerasus Humilis Genome Assembly Reveals Gene Family Evolution and Possible Genomic Basis of Calcium Accumulation in Fruits被引量：0收藏 分享

作者：Wang, Libing[1,2] Zhao, Yang[2,3,4] Guangjun, Fu[1] Li, Yingchao[2] Liu, Xiaojuan[2]

机构： Research Institute of Sand Control; State Key Laboratory of Tree Genetics and Breeding; State Key Laboratory of Plant Genomics; University of Chinese Academy of Sciences

来源：SSRN  2022

关键词：Calcium - Fruits - Signal transduction  

Integrated analysis of 454 and Illumina transcriptomic sequencing characterizes carbon flux and energy source for fatty acid synthesis in developing Lindera glauca fruits for woody biodiesel被引量：0收藏 分享

作者：Lin, Zixin[1] An, Jiyong[1] Wang, Jia[1] Niu, Jun[2] Ma, Chao[1]

机构： Beijing Advanced Innovation Center for Tree Breeding by Molecular Design; College of Horticulture and Landscape Architecture; Research Institute of Forestry

来源：Biotechnology for Biofuels  2017

关键词：Biochemistry - Biosynthesis - Fatty acids - Metabolism - Carbon - Fossil fuels - Biodiesel - Nucleotides - Transcription  

Comparative transcriptome combined with morpho-physiological analyses revealed candidate genes potentially for differential cold tolerance in two contrasting apricot (Prunus armeniaca L.) cultivars被引量：0收藏 分享

作者：Yu, Dan[1] Liu, Xiaojuan[1] Cui, Yifan[1] Bi, Quanxin[1] Zhao, Yang[1]

机构： State Key Laboratory of Tree Genetics and Breeding

来源：Trees - Structure and Function  2020

关键词：Metabolism - Polymerase chain reaction - Esters - Enzymes - Metabolites - Transcription - Physiology - Plants (botany)