Effects of Plant Density on the Economic Yield and Agronomic Characters of Perilla frutescens L.

Perilla frutescens L. is a traditional medicinal plant in china. In recent years, with more and more attention is paid to the nutritional and health values of Perilla frutescens L, it has become a potential medicinal and edible crop. Two Per- ilia frutescens cultivars, Qisu No.1 （oil type） and Qisu No.3 （leaf and seed-using type）, bred by Rapeseed Research Institute of Guizhou Academy of Agricultural Sciences, were used as test material for studying the effects of different planting density on the economic yield and agronomic characters of Perilla frutescens L. under moderate fertility level. The results showed the variation tendency of agro- nomic characters with the change of planting density was similar for the two Perilla frutescens cultivars. Among them, the plant height, main-stem nods, first effective branch length, first effective branch height, spikes per plant, and yield per plant were negatively related to the planting density; and main spike length and main- spike grains were positively related to the planting density. The effects of planting density on kilo-grain weight were not significant. The yield of the two cuitivars all increased first and then decreased with the increase of planting density. The re- gression analysis of planting density versus yield of Perilla frutescens L. was per- formed for obtaining the regression equations （Qisu No.l： y=54.046 5＋96.777 lx- 45.719 8x2, r=0.999 4; Qisu No.3：y=38.717 6＋42.111 3x-16.757 7x2, r=0.999 8）. Based on the regression equations, the optimal planting density for Qisu No.1 was 158 745 plants/hm2 with peak yield of 1 578.90 kg/hm2, and for Qisu No.3 was 188 745 plants/hm2 with peak yield of 977.55 kg/hm2. Under the optimal planting density, Qisu No.3 could also harvest 3 000 kg/hm2 of Perilla frutescens dry leaves and 2 400 kg/hm2 of Perilla frutescens stems. This research would provide an important reference for the promotion, high-yield cultivation and comprehensive utilization of Perilla frutescens L.

基于网络药理学和UPLC指纹图谱的紫苏质量标志物(Q-Marker)预测

基于UPLC指纹图谱和网络药理学法分析并筛选紫苏潜在质量标志物(Q-Marker)。首先建立15批紫苏叶及14批紫苏梗的指纹图谱,并对不同来源、批次的紫苏叶和紫苏梗中的成分及含量进行比较,标定紫苏不同部位指纹图谱的共有峰和非共有峰;采用网络药理学法构建紫苏“成分-靶点”网络图,并构建靶点蛋白互作网络图,预测紫苏Q-Marker。本研究建立的紫苏不同部位的指纹图谱,共检测到了5种成分,其中迷迭香酸、咖啡酸、木犀草素-7-O-葡萄糖醛酸苷、木犀草素-7-O-二葡萄糖醛酸苷为叶和梗的共有成分,芹菜素-7-O-葡萄糖醛酸苷为紫苏叶特有成分。筛选得到包括MAPK1、PIK3CA等在内的14个核心靶点,对以上靶点进行GO和KEGG功能分析可知涉及肿瘤坏死因子、新冠肺炎、脂质和动脉粥样硬化等通路,最后构建“成分-靶点-通路”网络图,选取排名前4的靶蛋白与4个成分进行分子对接验证,结果显示成分与蛋白之间具有十分良好的结合性能。本实验基于UPLC法建立紫苏不同部位多成分含量测定方法,此方法操作简单、准确度高,可作为紫苏质量检测的参考方法;同时结合网络药理学和分子对接技术预测迷迭香酸、咖啡酸、木犀草素-7-O-葡萄糖醛酸苷、木犀草素-7-O-二葡萄糖醛酸苷为紫苏潜在质量标志物,以此来评价紫苏“多成分-多靶点-多通路”的协同作用,为紫苏的质量控制提供了理论依据,同时也为后续的紫苏药效物质基础和作用机制提供坚实的基础。

Large scale identification of SSR marker in perilla by next generation sequencing

Perilla frutescens (L.) is an edible, medicinal crop, and most popular in East Asia. Its molecular breeding and research are hampered by the paucity of molecular markers. Simple sequence repeat (SSR) markers are ubiquitous and widely used in eukaryotic genomes. EST-SSRs identification of perilla was performed in 116,387 reads generated by Illumina paired-end sequencing technology. In total 25,449 unigenes containing SSR and 33,867 SSR loci were identified, and 19,400 primer pairs were designed. Polymorphism of SSR primers was conducted by searching for insertions and deletions (INDELs), and 1,567 unique SSRs were predicted. Totally, 200 SSR primer pairs were selected for polymorphic validation among 23 perilla accessions. Results showed that 175 primer pairs produced amplicons, and 30 pairs exhibited polymorphism. Polymorphic ratio was higher by using INDEL method than using conventional primers. Phylogenetic analysis showed the 2 distinct groups: P. frutescens var. frutescens and P. frutescens var. crispa. Wrinkled leaf trait and seed trait were distinct between these 2 groups. However, no clear leaf color or geographic relationship was detected. The large scale development and identification of SSR marker in this research laid a foundation for genetic analysis and marker assisted breeding of cultivated perilla.

Perilla frutescens:A traditional medicine and food homologous plant

Perilla frutescens,an annual herb of the Labiatae family,has been cultivated in China for more than 2000 years.P.frutescens is the one of the first medicinal and edible plant published by the Ministry of Health.Its leaves,stems and seeds can be used as medicine and edible food.Because of the abundant nutrients and bioactive components in this plant,P.frutescens has been studied extensively in medicine,food,health care and chemical fields with great prospects for development.This paper reviews the cultivation history,chemical compositions and pharmacological activities of P.frutescens,which provides a reference for the development and utilization of P.frutescens resources.

RP-HPLC用于紫苏油及其习用品白苏油、野苏油的鉴别

本文采用RP－HPLC方法对紫苏油及其习用品白苏油、野苏油甘油酯进行了定性定量分析。利用HPLC分析油脂也为中药材真伪鉴别提供了一条有效途径。

紫苏的食药价值及栽培历史考证

紫苏是我国传统的药食同源植物,具有悠久的栽培历史和广泛的应用价值。尽管目前已有对紫苏的本草考证,但对其名称演化、食药价值及栽培历史等方面仍然缺乏系统梳理。该研究以历代本草、医籍、农政史料等为基础,考证发现:(1)紫苏常以荏、苏等名收录于典籍,荏指籽用类紫苏,苏指药用类紫苏;(2)古籍中紫苏叶、籽均可用于药膳,紫苏籽油用作食用油脂,其古法压榨工艺有详细记载。(3)紫苏性味辛温,主下气,紫苏叶、梗偏于散,紫苏子偏于收,其药用价值有明确记载。(4)紫苏原产于中国,应用记载可追溯到战国时代,其栽培特性有详细记载。该文系统梳理了荏、苏的区分,并对其在食药及栽培方面的古籍记载进行了综述,可为紫苏作为药食同源大健康产品的开发提供文献依据。

基于SSR分子标记的紫苏种质资源遗传多样性及群体结构分析

为了明确不同紫苏种质的遗传基础和群体的亲缘关系,本研究利用19对SSR分子标记对不同地理来源的141份紫苏资源进行遗传多样性和群体结构分析。结果表明,19对SSR分子标记扩增出80条多态性条带,平均每对引物4.26条,多态性指数(PIC)变幅在0.3311~0.8457之间,平均为0.6206,多态性条带占比85.10%。利用UPGMA法对141份紫苏进行分子聚类,遗传相似系数(GS)介于0.4787~0.9489之间,平均为0.7099,在GS=0.696处将供试材料分为三类。通过Structure群体结构分析,将供试材料分为三大类,其中68.8%的紫苏种质资源遗传背景比较单一,31.2%的资源拥有混合血统,其遗传背景较为复杂。

紫苏叶提取物对小鼠止咳祛痰作用研究

目的探究水提和乙醇提两种不同方法制备的紫苏叶提取物对小鼠止咳祛痰的作用。方法分别采用水和50%乙醇作为溶剂制备紫苏叶提取物。比较各种紫苏叶提取物中总酚、总黄酮、总三萜和总多糖含量的差异;采用浓氨水引咳法和气管酚红排泌量法,观察紫苏叶提取物对小鼠咳嗽潜伏期、咳嗽次数以及气管酚红排泄量。结果紫苏叶50%乙醇提取物中总酚、总黄酮、总三萜含量显著高于水提取物(P<0.01),紫苏叶水提取物中总多糖含量显著高于50%乙醇提取物(P<0.01)。与模型组相比,紫苏叶水提取物可以明显延长小鼠咳嗽潜伏期并显著减少浓氨水引起的咳嗽次数(P<0.01);紫苏叶50%乙醇提取物对小鼠咳嗽潜伏期无显著影响(P>0.05),但可以显著减少小鼠咳嗽次数(P<0.01)。与对照组相比,紫苏叶水提取物可以显著增加气管酚红排泌量(P<0.01);而紫苏叶50%乙醇提取物的酚红排泌量无显著差异(P>0.05)。结论不同溶剂所制备的紫苏叶提取物成分不同。紫苏叶水提取物中多糖成分含量较高,同时具备较好的止咳和祛痰效果;紫苏叶醇提取物成分以酚、黄酮、三萜类化合物为主,具有较好的止咳效果。

Comparative transcriptome and co-expression analysis reveal key genes involved in leaf margin serration in Perilla frutescens

Objective:In this study,we aimed to identify the genes involved in leaf margin serration in Perilla frutescens.P.frutescens(Family:Lamiaceae)is widely grown in Asian countries.Perilla leaf is the medicinal part stipulated in the Chinese Pharmacopoeia.There are mainly two types of perilla leaves:one with serrated leaf margin which is the phenotype described in the pharmacopoeia and the other with smooth leaf margin.Methods:Transcriptome sequencing,co-expression analysis,and qRT-PCR analysis of six perilla tissues sampled from two different phenotypes(serrated and smooth leaves)were performed.Results:Forty-three differentially expressed genes(DEGs),which may potentially regulate leaf shape,were identified through de novo transcriptome sequencing between the two groups.Genes involved in leaf shape regulation were identified.Simultaneously,we validated five DEGs by qRT-PCR,and the results were consistent with the transcriptome data.In addition,1186 transcription factors(TFs)belonging to 45 TF families were identified.Moreover,the co-expression network of DEGs was constructed.Conclusion:The study identified the key genes that control leaf shape by comparing the transcriptomes.Our findings also provide basic data for further exploring P.frutescens,which can help study the mechanism of leaf shape development and molecular breeding.

紫苏叶黄酮、多酚提取工艺优化及不同品种抗氧化活性比较

紫苏(Perilla frutescens (L.) Britt.)是食药两用植物之一,本研究为比较不同品种紫苏叶(‘韩国绿色PF1’,‘中国PF2’,‘韩国紫色PF3’,‘韩国双色PF4’,‘中国双色PF5’)中黄酮和多酚提取量,并探讨其体外抗氧化活性,利用单因素实验和正交试验法优化紫苏叶黄酮和多酚提取工艺。结果表明:最佳工艺参数为乙醇浓度75%、料液比1:80 g/mL、提取时间2 h、提取温度70℃,此提取条件下,黄酮、多酚提取量最高,分别为(16.82±0.60)和(80.42±2.66) mg/g。不同品种紫苏叶中,PF3的多酚提取量最高(17.77±0.29) mg/g,PF5黄酮提取量最高(80.42±2.66) mg/g。抗氧化活性结果表明,不同品种紫苏叶均具有良好的抗氧化活性,其中PF5的ABTS^(+)自由基清除率(IC_(50) 150.31±2.46μg/mL)、DPPH自由基清除能力(IC_(50) 88.04±3.61μg/mL)及总还原能力最强(P<0.05)。相关性分析表明,多酚提取量与ABTS+自由基清除率、总还原力呈显著相关(P<0.05),黄酮提取量与DPPH自由基清除率、ABTS^(+)自由基清除率显著相关(P<0.05),与总还原力极显著相关(P<0.01)。本研究为不同品种紫苏叶资源的开发利用提供了一定的理论依据。

响应面法优化兔肉紫苏脱腥工艺

以兔肉的硫代巴比妥酸值(TBARS)为响应值,在单因素试验的基础上,采用响应面法优化紫苏脱除兔肉腥味工艺。结果表明:紫苏脱除兔肉腥味的最优工艺为脱腥温度26.5℃、脱腥时间60 min、紫苏汁体积分数4%,在此条件下兔肉的TBARS为(0.033±0.003)mg/kg。

益生菌混合发酵紫苏苹果浊汁工艺的研究

以苹果和紫苏为原料通过益生菌混合发酵制备紫苏苹果浊汁。以感官评分为指标,在单因素试验的基础上通过Plackett-Burman试验和响应面法优化发酵制备工艺条件。结果表明:最佳制备工艺条件为以苹果浊汁质量为基准,低聚果糖添加量7%、益生菌接种量1%、紫苏提取液添加量5.0%、凝结芽孢杆菌和发酵乳杆菌体积比2∶1、发酵温度37℃、发酵时间11 h。在此条件下,益生菌混合发酵紫苏苹果浊汁呈现淡红色,口感酸甜,具有苹果的清香味,感官评分为8.65。

高寒阴湿区紫苏引种评价

目的:对不同品种、变种或生态型紫苏(广西回回苏、甘肃紫苏、贵州遵义紫苏、河北油苏、云南宣威紫苏和冀苏一号)在高寒阴湿区的生长状况、质量等进行综合评价。方法:通过田间调查和实验室测定相结合的方法,观察记载紫苏的外观形态、生长发育规律,研究紫苏不同采收期、不同采收部位的有效成分含量。结果:在高寒阴湿区引种的6种紫苏,均主茎明显,多侧枝,茎四棱,中间凹槽明显,但叶片颜色和叶型却不尽相同。由于高寒阴湿区特殊的气候,只有甘肃紫苏、河北油苏和冀苏一号开花结籽,河北油苏种子灰白色,甘肃紫苏和冀苏一号种子灰褐色。9月份采收的广西回回苏的紫苏叶挥发油含量最高(1.97%),9月上旬采收的贵州遵义紫苏的紫苏梗迷迭香酸含量最高(0.72%);紫苏子以10月上旬采收的甘肃紫苏迷迭香酸含量最高(0.39%)。结论:高寒阴湿区种植紫苏的植株形态与原产地基本一致,甘肃紫苏、河北油苏和冀苏一号在高寒阴湿区可以完成全生育周期,广西回回苏的紫苏叶挥发油含量最高,贵州遵义紫苏的紫苏梗迷迭香酸含量最高。

紫苏萜类生物合成乙酰辅酶A酰基转移酶基因的克隆及表达分析

[目的]研究紫苏萜类生物合成关键基因乙酰辅酶A酰基转移酶(actyl-CoA C-acetyltransferase,AACT)的结构与表达特征。[方法]利用基因克隆技术从紫苏中克隆AACT基因,采用生物信息学和实时荧光定量PCR(qRT-PCR)方法对紫苏AACT基因进行分析。[结果](1)首次从紫苏中克隆了AACT基因,其开放阅读框全长1254 bp,编码417个氨基酸;(2)生物信息学分析显示:PfAACT的分子量为42.972 ku,等电点为8.07,为疏水蛋白;(3)同源分析显示:PfAACT氨基酸与冬凌草IrAACT、丹参SmAACT、夏枯草PvAACT和芝麻SiAACT的同源性较高,说明紫苏PfAACT蛋白在进化过程中保守性强;亲缘关系分析显示:紫苏PfAACT与冬凌草IrAACT的亲缘关系最近;(4)qRT-PCR分析结果表明:PfAACT基因在紫苏叶中的表达量高于在根和茎中的表达量;不同发育时期PfAACT基因表达情况显示其在9月中下旬表达量最高。[结论]本研究首次从紫苏中克隆了紫苏萜类物质生物合成关键基因PfAACT,其结构与表达特征的研究结果为紫苏萜类物质生物合成关键基因的研究提供了参考。

紫苏、香附及其药对挥发油的GC-MS分析

采用水蒸气蒸馏法提取紫苏、香附和紫苏-香附药对挥发油,GC-MS联用技术分析,峰面积归一化法计算其相对百分含量。紫苏挥发油主要成分为α-蒎烯、(-)-α-荜澄茄油烯等51种成分;香附挥发油主要成分为石竹烯、β-瑟林烯等63种成分;药对紫苏-香附挥发油主要成分为α-香附酮、氧化石竹烯等51种成分,药对挥发油化学成分中发现24种成分来源于各自单味药成分的叠加,但27种成分不存在于单提的挥发油中。

紫苏油抗过敏·炎症的研究

介绍紫苏子中脂肪酸类成分抗过敏·炎症作用及其作用机制 ,即抑制血小板活化因子 (PAF)和白三烯的研究概况。并与同系列脂肪酸二十碳五烯酸 (EPA)和二十二碳六烯酸 (DHA)进行了比较 。

镉铜胁迫下紫苏的生长响应和富集特征研究

通过盆栽试验,分析了紫苏（Perilla frutescens（L.）Britt.）在Cd、Cu胁迫下生长响应及其对Cd、Cu的耐性、吸收和累积特征。结果表明,在Cd处理浓度≤60 mg.kg^-1和Cu处理浓度为≤600 mg.kg^-1时,紫苏株高和根长均随处理浓度提高而增加,此后则随处理浓度增加胁迫作用渐趋明显。植株地上部和根部Cd的最高含量分别是331.51和991.14 mg.kg^-1,Cu的最高含量分别为228.65和2 030.63 mg.kg^-1。植株地上部Cd和Cu的最大富集量分别为66.70和36.52μg.plant^-1。植株Cd、Cu富集系数分别为2.59-15.42和0.14-1.24,迁移系数分别为0.35-1.44和0.07-0.56。因此,该植物可用于Cd、Cu污染土壤的修复。

外源NO供体硝普钠(SNP)对盐胁迫下紫苏种子萌发及幼苗抗氧化酶活性的影响

目的:通过对紫苏种子萌发及幼苗生理特性的研究,寻找提高紫苏种子及幼苗在盐胁迫条件下抗盐能力的途径。方法:测定了不同浓度硝普钠(SNP)处理后的NaCl胁迫下紫苏种子的发芽势、发芽率、发芽指数和活力指数,并对紫苏幼苗叶片的丙二醛(MDA)含量、硝酸还原酶(NR)、超氧化物歧化酶(SOD)、过氧化物酶(POD)和过氧化氢酶(CAT)活性进行了测定。结果:结果显示在100 mmol/L的NaCl胁迫下的紫苏种子萌发受到显著抑制,但是经过不同浓度的SNP处理后,萌发指标均有升高,其中经过0.1 mmol/L的SNP处理后,各项指标均达到最大值,发芽势为60.4%,发芽率为78.3%,发芽指数为13.7,活力指数为为0.1093。SNP处理降低了叶片MDA的含量,并且提高了NR、SOD、POD和CAT四种酶的活性,且均为当SNP浓度为0.1 mmol/L时达到最大值,分别为:1.52μg/g.h、0.32 U/mg、5.9 U/mg和4.8 U/mg。结论:0.1 mmol/L的SNP能够有效的减缓NaCl胁迫对紫苏种子及幼苗产生的伤害,提高了种子及幼苗的抗盐能力。

西洋参、紫苏籽和薏苡根水提物的化感作用

目的 研究西洋参、紫苏籽和薏苡根水提物的化感作用。方法 以白菜和西洋参为测试植物 ,观察西洋参、紫苏籽和薏苡根水提物对其种子萌发和活力、存苗率、幼苗初期生长的影响。结果 西洋参茎叶水提物与高于 1%浓度的须根水提物严重抑制白菜和西洋参的种子萌发及活力、存苗率、幼苗初期生长 ,而紫苏籽和薏苡根的水提物则促进实验植物幼苗根和芽的生长。高浓度的薏苡根水提物可使西洋参的存苗率显著降低。结论 3种药用植物中存在活性较强的化感物质 ,其化感作用的正负效应和强度与它们的水提物浓度及植物受体种类有关。

紫苏对不同浓度镉胁迫的生理响应

为探讨紫苏的耐镉生理机制,通过水培试验,研究了镉离子浓度为0 mg.L-1(对照)、2.0 mg.L-1、5.0 mg.L-1、10.0 mg.L-1条件下紫苏的生长、镉富集作用及叶片的保护酶活性。结果表明,2.0 mg.L-1、5.0 mg.L-1、10.0 mg.L-1镉胁迫下,紫苏单株生物量比对照分别减少28.4%、42.4%、66.0%,不同处理间均存在极显著差异;3个镉离浓度下紫苏的镉富集量依次为462.4μg.株-1、705.0μg.株-1、609.7μg.株-1,富集系数依次为91.9、70.0、51.1,具备镉超积累能力。此外,SOD、POD、CAT酶活测定结果显示,随镉离子浓度升高,紫苏叶片的SOD活性和MDA含量显著升高,POD和CAT活性显著下降,破坏了体内保护酶系统的平衡,抑制紫苏生长。