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1.
基于matR基因序列分析的山茶科系统关系 总被引:2,自引:2,他引:0
通过线粒体matR基因序列分析探讨了山茶科的分类学范围和系统演化关系。结果显示,传统山茶科的两个核心——山茶亚科(Theoideae或Camellioideae)和厚皮香亚科(Ternstroemioideae)不构成姐妹群关系,山茶亚科是一个支持率很高的单系类群,厚皮香亚科没有形成单系;山茶亚科下可区分出3个明显的分支,基部的分支由紫茎属(Stewartia)和舟柄茶属(Hartia)组成,木荷属(Schima)、美洲荷属(Franklirda)和美国大头茶属(Gordonia)构成第2个分支,该分支与由山茶属(Camellia)、核果茶属(Pyrenaria)、多瓣核果茶属(Parapyrenaria)、石笔木属(Tutcheria)、大头荣属(Polyspora)和圆籽荷属(Aptersperma)组成的第3个分支互为姐妹群。研究结果很好地支持了Prince和Parks等学者提出的的狭义山茶科(仅含山茶亚科)和狭义大头茶属的概念以及科下3个族(紫茎族Stewartieae、大头茶族Gordonieae和山茶族Theeae)的划分。但本研究更为清晰地揭示了科下3个族间的系统关系,即紫茎族是最基部的分支,山茶族与大头茶族间有更近的亲缘关系。同时,本文认为,厚皮香(亚)科是否为单系类群值得进一步研究。 相似文献
2.
The metabolism of adenine and guanine, relating to the biosynthesis of caffeine, in excised shoot tips of tea was studied with micromolar amounts of adenine-[8-14C] or guanine-[8-14C]. Among the presumed precursors of caffeine biosynthesis, adenine was the most effective, whereas guanine was the least effective. After administration of a ‘pulse’ of adenine-[8-14C], almost all of the adenine-[14C] supplied disappeared by 30 hr, and 14C-labelled caffeine and RNA purine nucleotide (AMP and GMP) synthesis increased throughout the experimental period, whereas the radioactivities of free purine nucleotides, 7-methylxanthine and theobromine increased during the first 10 hr incubation period, followed by a steady decrease. By contrast, more than 45% of the guanine-[8-14C] supplied remained unchanged even after a 120 hr period. The main products of guanine-[8-14C] metabolism in tea shoot tips were guanine nucleotides, theobromine, caffeine and the GMP of RNA. The results support the hypothesis that the purine nucleotides are synthesized from adenine and guanine via the pathway of purine salvage. Adenylate is readily converted into other purine nucleotides, whereas the conversion rate of guanylate into other purine nucleotides is very low.The results also support the view that 7-methylxanthine and theobromine are precursors of caffeine. For the origin of the purine ring in caffeine, purine nucleotides in the nucleotide pool rather than in nucleic acids are suggested. 相似文献
3.
山茶科濒危植物猪血木的生态与繁殖特性 总被引:9,自引:1,他引:8
在广东省阳春市八甲镇地区发现濒危和特有植物猪血木(Euryodendron excelsum)80余株个体及其自然居群,通过其生境条件,分布格局,群落组成,物候,种子散布和种子萌发实验等研究。结果显示该植物生长繁殖正常;其种子散布以黄臀鹎(Pycnonotus xanthorrhous)等鸟类散布为主,但鸟类消化处理不是其种子萌发的必要条件,湿度保持是其种子保持活力的重要条件;其种子无休眠期,同时探讨了该植物的濒危状况的原因。提出了相应的保护建议和方案。 相似文献
4.
Design and selection of trap color for capture of the tea leafhopper,Empoasca vitis,by orthogonal optimization 总被引:2,自引:0,他引:2
Lei Bian Xiao‐Ling Sun Zong‐Xiu Luo Zheng‐Qun Zhang Zong‐Mao Chen 《Entomologia Experimentalis et Applicata》2014,151(3):247-258
The tea leafhopper, Empoasca vitis (Göthe) (Hemiptera: Cicadellidae), is a major pest of the tea plant, Camellia sinensis (L.) O. Kuntze (Theaceae). In this study, the RGB color model was used to describe the colors of sticky traps. The most effective color for attraction of E. vitis was investigated by orthogonal optimization. The selected color was verified in tea gardens and the most effective height for positioning of color sticky traps for capturing tea leafhoppers was investigated. After the determination of the effect of the three color parameters and their interactions by orthogonal optimization, the color gold (RGB: 255, 215, 0) was selected as the most effective color to trap tea leafhoppers. In tea gardens, more leafhoppers were captured using gold sticky traps (RGB: 226, 204, 4) than using commercially available yellow sticky traps. The most effective height of gold sticky traps for trapping leafhoppers was 40–60 cm above the tea canopy. Few lady beetles were captured at this height. We conclude that the orthogonal optimization method is a convenient and efficient method to screen digitally generated colors for attracting and trapping of pests. 相似文献
5.
山茶科许多种类既是重要的食用油脂原料,也是重要的工业用油脂以及化妆品或医药原料。通过野外考察、文献查阅以及山茶科种子含油量的实际测定,结果表明:江西省山茶科植物有10属75种;其中含油率在50%以上的有9种,如油茶、浙江红山茶、短柱茶、细叶短柱茶、钝叶短柱茶、糙果茶、全缘红山茶、粗毛石笔木和石笔木;含油率为30%~50%的有13种,含油率为10%~30%的约16种。本文对江西省山茶科含油植物及其生态习性、潜在的开发利用价值进行了研究,并对富油种进行了重点评价,认为油茶、浙江红山茶、粗毛石笔木、全缘红山茶、短柱茶可作为重点开发对象。 相似文献
6.
Petrol. extracts of green tea yielded two straight chain alcohols identified as C30 and C32 alcohols by mass spectrometry, and a mixture of sterols identified as α-spinasterol and stigmast-7-ene-3-β-ol. A new saponin has also been isolated from the methanol extract and shown to be α-spinasterol gentiobioside. 相似文献
7.
Eight chloroplast markers were developed from Japanese and snow camellia (Camellia japonica and C. rusticana). Six markers were based on mononucleotide repeats, while the other two resulted from indels of larger units. Polymorphisms were screened using 15 individuals from all over the Japanese archipelago, including C. japonica, C. japonica var. macrocarpa, C. japonica var. hozanensis, and C. rusticana. Polymorphisms within a single population were searched in 22 and 26 individuals of C. japonica and C. rusticana, respectively. The number of alleles per locus ranged from two to three, resulting in eight haplotypes, two of which were specific to C. rusticana. No polymorphisms were detected within a single population for both C. japonica and C. rusticana. The eight markers developed in the present study will be useful for analyzing the genetic diversity and tracing maternal origins of Japanese and snow camellias. 相似文献
8.
9.
Caffeine and related purine alkaloids: biosynthesis, catabolism, function and genetic engineering 总被引:4,自引:0,他引:4
Details of the recently elucidated biosynthetic pathways of caffeine and related purine alkaloids are reviewed. The main caffeine biosynthetic pathway is a sequence consisting of xanthosine-->7-methylxanthosine-->7-methylxanthine-->theobromine-->caffeine. Genes encoding N-methyltransferases involved in three of these four reactions have been isolated and the molecular structure of N-methyltransferases investigated. Pathways for the catabolism of caffeine have also been studied, although there are currently no reports of enzymatic and genetic studies having been successfully carried out. Metabolism of purine alkaloids in species including Camellia, Coffea, Theobroma and Ilex plants is summarised, and evidence for the involvement of caffeine in chemical defense and allelopathy is discussed. Finally, information is presented on metabolic engineering that has produced coffee seedlings with reduced caffeine content, and transgenic caffeine-producing tobacco plants with enhanced disease resistance. 相似文献
10.
Theacrine (1,3,7,9-tetramethyluric acid) and caffeine were the major purine alkaloids in the leaves of an unusual Chinese tea known as kucha (Camellia assamica var. kucha). Endogenous levels of theacrine and caffeine in expanding buds and young leaves were ca. 2.8 and 0.6-2.7% of the dry wt, respectively, but the concentrations were lower in the mature leaves. Radioactivity from S-adenosyl-L-[methyl-14C]methionine was incorporated into theacrine as well as theobromine and caffeine by leaf disks of kucha, indicating that S-adenosyl-L-methionine acts as the methyl donor not only for caffeine biosynthesis but also for theacrine production. [8-14C]Caffeine was converted to theacrine by kucha leaves with highest incorporation occurring in expanding buds. When [8-14C]adenosine, the most effective purine precursor for caffeine biosynthesis in tea (Camellia sinensis), was incubated with young kucha leaves for 24 h, up to 1% of total radioactivity was recovered in theacrine. However, pulse-chase experiments with [8-14C]adenosine demonstrated much more extensive incorporation of label into caffeine than theacrine, possibly because of dilution of [14C]caffeine produced by the large endogenous caffeine pool. These results indicate that in kucha leaves theacrine is synthesized from caffeine in what is probably a three-step pathway with 1,3,7-methyluric acid acting an intermediate. This is a first demonstration that theacrine is synthesized from adenosine via caffeine. 相似文献