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1.
用分光光度法在体外研究了不同pH条件下马铃薯'转心乌'块茎花色苷颜色呈现和降解速率的变化,以探讨马铃薯'转心乌,块茎颜色呈现的机理.结果显示:在pH 2.0时,该花色苷呈现最强烈的红色.随着pH从0增加到13.0,该花色苷在可见光区的最大吸收波长(λvis max)依次出现红移、蓝移,然后消失,在可见光区的最大吸收波长处的吸光值(Aλ,vis max)呈现为一条单峰曲线,峰值在pH 2.0处.当原始pH值被恢复到2.0后,如果原始pH小于或等于5.0,花色苷的红色均被恢复得更浓烈,λvis max不同程度地趋向537 nm,Aλ,vis max增加;如果原始pH大于或等于6.0,花色苷的红色根本不能被恢复,λvis max几乎不变,Aλ,vis max仍然维持低水平.在15℃、黑暗中,该花色苷在pH 0~5.0条件下均随时间推移而降解,在pH 2.0时的降解速度最慢;当pH小于或等于3.0时,该花色苷总体上降解缓慢,而且降解过程基本符合一级反应动力学.研究表明,'转心乌'块茎花色苷在可见光区的吸收光谱和在15℃、黑暗中的降解速度均具pH依赖性.  相似文献   

2.
郁晶晶  唐东芹  李欣 《广西植物》2020,40(5):687-695
为研究不同品种香雪兰的花色苷组成、含量及与花色表型之间的关系,阐明香雪兰花色形成机理,该研究以不同花色的香雪兰(Freesia hybrida) 11个品种为材料,采用英国皇家园艺学会比色卡(RHSCC)和色差仪进行花色描述,利用特征颜色反应初步确定色素类型,通过pH示差法测定花瓣中总花色苷的含量,进而利用UPLC-Q-TOF-MS技术分析各品种花瓣中花色苷种类和相对含量。结果表明:11个所选品种涵盖香雪兰四大色系,即白色系、黄色系、红色系、蓝紫色系;所选品种都含有黄酮类化合物,不含或含有极低量的类胡萝卜素,除‘White River’‘Fragrant Sunburst’‘Gold River’‘Tweety’外,均含有花色苷;‘Red Passion’花瓣中总花色苷含量最高,最低是‘Lovely Lavender’,其含量仅为‘Red Passion’的24%;在香雪兰花瓣中共检测出10个花色苷组分,分别为飞燕草-二葡萄糖苷、矢车菊素-二葡萄糖苷、矮牵牛素-二葡萄糖苷、飞燕草素-3-O-葡萄糖苷、矢车菊素-3-O-葡萄糖苷、芍药素-二葡萄糖苷、锦葵素-二葡萄糖苷、矮牵牛素-3-O-葡萄糖苷、芍药素-3-O-葡萄糖苷、锦葵素-3-O-葡萄糖苷;红色系品种‘Red Passion’和‘上农红台阁’花瓣中主要成分为矢车菊素类化合物,蓝紫色系品种‘Pink Passion’‘Castor’‘上农淡雪青’和‘上农紫玫瑰’花瓣中主要成分为矮牵牛素类和锦葵素类化合物,‘Lovely Lavender’花瓣仅含飞燕草素类化合物。研究表明不同品种香雪兰花瓣颜色的呈现与花色苷种类有关,花瓣着色程度则与花瓣中花色苷总含量成正比。该研究结果为新品种培育、花色改良和育种工作提供理论依据。  相似文献   

3.
三七是中国云南省的"第一药材",云南文山三七是三七的道地药材。三七块根的横截面为黄白色至紫色。紫色块根约占研究块根总数的28 .21 %,其中柱鞘、内皮层、皮层或表皮为紫色。特征颜色反应和紫外——可见光谱表明:三七块根紫色素属于黄酮类化合物,可能含有酚性邻位二羟基,不含类胡萝卜素、查耳酮、噢哢、异黄酮、儿茶素。花色苷和/或其苷元花色素奠定了紫色块根着色的基础,其他的非红色的黄酮类化合物起共色素的作用。块根的平均花色苷含量和平均总皂苷含量均以纯紫色块根的为最高,其次是黄紫混合色块根的,纯黄色的最低。块根的花色苷含量差异达到极显著水平,但总皂苷含量差异却没有达到显著水平。每个块根都含有不同量的花色苷,随花色苷量的增加,块根的紫色一般逐渐明显。块根的花色苷含量与其总皂苷含量之间呈显著正相关,相关系数r=0 .355。本文可为三七块根颜色呈现的机理探索及其色素的分子结构鉴定提供参考。  相似文献   

4.
梅花是中国的候选国花之一。属于花色苷的梅花'南京红'花色色素用含1%浓盐酸(v/v)的甲醇提取,并呈现纯净的紫红色。体外试验表明:该色素在pH0-3范围内颜色稳定,因不同光质、热、氧化剂、还原剂、螯合剂而呈现无色、墨绿色或黄绿色,因不同金属离子、离子的不同浓度而呈现程度不同的红色、紫色、黑黄色、红中带黑或微蓝绿色,葡萄糖和低浓度苯甲酸钠几乎不影响其色泽,蔗糖使颜色变淡,柠檬酸却使其颜色变深。该文可为梅花红色花色的机理探索、梅花花色苷的分子结构鉴定、梅花红色花色色素的开发利用提供参考和前提。  相似文献   

5.
【目的】通过对影响月季花瓣呈色的各理化因子的定量评价及其相关性分析,探讨了月季花色的形成机理,可为花色育种提供理论参考和受体品种,对于探究花色形成机理和种质创新具有重要意义。【方法】以8个不同花色的月季品种为试验材料,分别对其花瓣颜色参数、细胞液pH值、金属离子含量、总花色苷含量、总黄酮含量和总叶绿素含量等理化指标进行测定和比较,并对花色苷组分进行定性和定量分析。【结果】结果表明:(1)不同花色月季的理化因子间存在显著差异,其中细胞液pH值、Fe3+、Ca2+、Al3+含量以及总花色苷、总黄酮含量等因子与花瓣颜色的形成密切相关,但总花色苷含量和总黄酮含量的变化起直接作用,金属离子及细胞液pH值等因素通过改变花色素结构来影响花色。(2)8种月季花瓣中所含有的花色苷组分主要为矢车菊类和天竺葵类糖苷,黄酮类物质主要为槲皮素及山奈酚的糖基化、酰基化等衍生物。其中,矢车菊素-3,5-葡萄糖苷在月季中占主体地位,主要调控紫红色花朵的形成;其次是天竺葵素-3,5-葡萄糖苷,其主要调控橙色、红色花朵的形成。黄色花朵中花色苷含量很少,主要受类胡萝卜素的调控;橙色花朵受花色苷和类胡萝卜素的双重调控;白色花朵中几乎不含有花色苷。芦丁在8个月季品种中均大量存在,但与花瓣形成无显著相关关系。(3)对8种月季花瓣中花色苷组分进行聚类分析时发现,粉紫色品种‘薰衣草花环’以极高的芦丁含量和少量的花色苷含量始终单独聚为一类。【结论】研究表明,花色苷的种类和含量直接影响月季的花色,黄酮类物质则辅助花色苷的形成,而细胞液pH值、Fe3+、Ca2+、Al3+含量等因子间接影响花色。在所选择的8个品种月季中,粉紫色品种‘薰衣草花环’以其优异的花色苷组分及较高的细胞液pH成为最适合进行花色改良的受体品种。  相似文献   

6.
NaCl胁迫对''金光''杏梅幼苗生长及其生理指标的影响   总被引:3,自引:0,他引:3  
以‘金光’杏梅盆栽幼苗为试验材料,研究了NaCl胁迫对‘金光’杏梅幼苗生长和生理指标的影响.结果表明:NaCl胁迫显著抑制了‘金光’杏梅幼苗的生长,随着NaCl浓度的升高,‘金光’杏梅的株高、叶面积、叶鲜重、叶干重、茎干重、根干重、叶绿素含量和净光合速率均呈下降趋势;叶片细胞膜透性、丙二醛(MDA)、可溶性糖、脯氨酸(Pro)含量以及POD活性显著增加;而SOD活性在低NaCl浓度下上升,在高NaCl浓度下下降.  相似文献   

7.
以2个不同红色石榴品种‘红宝石’和‘墨石榴’为试验材料,采用荧光定量PCR方法,分析花色苷合成相关基因CHS、CHI、F3H、DFR、ANS、UFGT等6个基因在果实发育过程中的转录表达特性,同时分析基因表达量与果皮花色苷积累的关系。结果表明:(1)在整个果实发育期内‘墨石榴’花色苷含量明显高于‘红宝石’;随着果实的发育,‘红宝石’果皮中总花色苷含量不断增加,而‘墨石榴’中总花色苷含量初期很高,随后迅速下降,后期维持在较低水平。(2)‘红宝石’中CHS、CHI、F3H、DFR、UFGT等5个基因均在果实发育的早期和晚期出现2个表达高峰,而ANS基因的表达量在整个果实发育期内不断升高;在‘墨石榴’中CHS、CHI、F3H、DFR、ANS等5个基因的表达高峰均出现在早期,随着果实的发育表达量均呈下降变化趋势,但UFGT基因在中期时表达量最高。(3)‘红宝石’石榴的ANS基因表达量与总花色苷含量呈显著正相关,‘墨石榴’中CHS和ANS基因的表达水平与总花色苷含量显著相关。研究认为,花色苷合成相关基因的初期和末期表达差异是2个石榴品种着色差异的主要原因,ANS在‘红宝石’着色中起关键作用,CHS和ANS可能在‘墨石榴’花色苷积累中起重要作用。  相似文献   

8.
增强UV-B辐射对彩色马铃薯叶片中相关保护酶活性的影响   总被引:3,自引:0,他引:3  
以种植于大田中的马铃薯品种'云南转心乌'(块茎紫皮紫环,以下简称'转心乌')和 '大西洋'(块茎白皮白肉)为材料,分别采用自然太阳光照(0~10 W/m2)、2 W/m2和4 W/m2 UV-B辐射进行20~80 d的照射处理,测定了马铃薯叶片内过氧化氢酶(CAT)、过氧化物酶(POD)、超氧化物歧化酶(SOD)、苯丙氨酸解氨酶(PAL)活性以及总叶绿素和丙二醛含量的变化.结果表明:随着UV-B处理时间的延长,'转心乌'和'大西洋'叶片中CAT、POD、SOD、PAL活性均表现出先升后降的趋势,而总叶绿素含量持续降低,丙二醛含量逐渐增加;在增强UV-B辐射条件下,上述指标在处理时间和剂量间大多差异显著,且'转心乌'叶片的各保护酶活性和总叶绿素含量显著高于'大西洋',丙二醛含量则显著低于‘大西洋'.可见,长时间大剂量的UV-B辐射对马铃薯叶片的叶绿素合成代谢和保护酶活性具有一定的抑制作用,从而影响作物正常的生长发育;马铃薯对于紫外线辐射的响应具有品种间差异,'转心乌'较'大西洋'更耐UV-B辐射,其更适合种植在UV-B辐照较强的高海拔地区.  相似文献   

9.
"彩色马铃薯"块茎花色苷分子结构研究进展   总被引:2,自引:0,他引:2  
“彩色马铃薯”是指块茎的“皮”和/或“肉”为红、紫、蓝或橙色的马铃薯,其块茎“皮”和“肉”变化多端的着色模式源于花色苷的积累,块茎各种颜色在根本上由花色素决定。在“彩色马铃薯”块茎中已发现6种花色素,即矮牵牛色素、花葵素、锦葵色素、芍药色素、花青素和花翠素;不同颜色块茎所含的花色素种类不同,同一颜色块茎所含花色素种类也可能不同;紫色块茎所含的花色素种类最为多样化。“彩色马铃薯”块茎的各种花色素一般在C3位经过氧一糖苷键实现1个芸香糖基取代,在苷元的C5位,要么以氧.糖苷键实现单葡萄糖基取代,要么不发生取代。“彩色马铃薯”块茎花色苷常在花色素C3位二糖取代基上或在C5位的单糖取代基上进一步发生反式单酰基取代,实现酰基取代的酚酸多为对香豆酸,其次为阿魏酸和咖啡酸。“彩色马铃薯”块茎矮牵牛素、锦葵色素、花葵素和芍药色素的对香豆酸酰化衍生物的惯用名分别为“petanin”,“malvanin”,“pelanin”和“peonanin”。本文可以为“彩色马铃薯”块茎颜色呈现的机理探索及其花色苷的分子结构鉴定提供参考。  相似文献   

10.
花色苷是一类重要的色素,对李红色的形成必不可少。本研究以‘脆红李’为试材,研究了果实发育过程中叶绿素含量、总花色苷含量及果皮主要花色苷组分和含量的变化规律,并分析了Ps PAL、Ps CHS、Ps CHI、Ps F3H、Ps DFR、Ps ANS和Ps UFGT基因在果实不同发育阶段的表达规律。结果表明,随着‘脆红李’果实的生长发育,果皮和果肉中总叶绿素含量呈逐渐下降的趋势;‘脆红李’果肉中不含花色苷,果皮中的花色苷在转色期才开始积累,成熟时达到最大值,为404.37μg/(g·FW),并以矢车菊素-3-O-葡萄糖苷和矢车菊素-3-O-芸香糖苷为主;花色苷合成相关基因在‘脆红李’不同生长发育时期的果皮和果肉中有着特异性的表达,但只有Ps PAL和Ps UFGT基因的转录水平与花色苷含量的正相关性达到极显著水平,表明这两个基因对‘脆红李’果实的着色有着异常重要的调控作用。  相似文献   

11.
Tissue-specific expression of two members of the cell wall hydroxyproline-rich glycoprotein (HRGP) family, extensin and potato tuber lectin, was examined by immunolocalization at the light microscope level in various organs (leaves, stems, roots, fruit, tuber) of carrot ( Daucus carota cv. Thumbelina), tomato ( Lycopersicon esclentum cv. Pixie Hybrid II), and potato ( Solanum tuberosum cv. Kennebec). Extensin was prominently expressed in vascular tissue, particularly xylem and also phloem, although virtually all cells displayed some degree of staining which varied as a function of the tissue, organ, and plant under study. Antibodies against potato tuber lectin (PTL) displayed a localization pattern similar to that observed for extensin; notably PTL did not stain cambium but did stain epithelial cells lining secretory cavities. These distribution patterns are consistent with a role for extensin, and possibly PTL, in providing mechanical support in tissues subjected to compression or torsional stress imparted by vascular growth, or by similar stress brought about by transport of vascular fluids.  相似文献   

12.
The uptake and distribution of Cd in potatoes over the course of a growing season was investigated in two cultivars of potatoes that differed in tuber Cd concentration. Plants were grown in soil with supplemental Cd. The concentrations of Cd in different tissues varied greatly in the order roots>shoots> tubers. After the initiation of tuber bulking, shoot growth ceased and the increase in total plant Cd was mostly due to accumulation in the tubers. The constancy of the Cd concentration in shoots suggested that import of Cd via the xylem must be matched by export in the phloem, which implied that Cd must have significant phloem mobility. It was found that the differences in tuber Cd between cultivars Wilwash and Kennebec were not due to differences in total uptake or growth, but to differences in Cd partitioning within the plant. This partitioning was specific to Cd and was not observed for a range of nutrient elements. Most of the differences in tuber Cd concentration between the cultivars could be accounted for by a 3-fold higher retention of Cd in the roots of cv. Wilwash. The involvement of root sequestration, and xylem and phloem pathways in the loading of Cd into tubers is considered.  相似文献   

13.
怀地黄块根的形态发生和结构发育   总被引:13,自引:3,他引:10  
观察了怀地黄(Rehmannia glutinosa cv.Hueichingensis Hsiao.)块根的形态发生和生长发育过程中的形态结构变化。采用怀地黄的传统栽培方法,即用上一年的块根作母根进行繁殖,分别从母根和不定芽的茎基部发生不定根。怀地黄不定根的初生结构和维管形成层的发生与一般双子叶植物相同,但其次生生长却有两种方式,即正常次生生长和异常次生生长。一类不定根的形成层产生的次生结构与一般双子叶植物相同,即次生木质部中主要是导管,而薄壁细胞较少。这类不定根其次生生长为正常次生生长(normal secondary growth),是担负吸收和固着作用的正常根。另一种类型的不定根,其形成层产生的次生木质部含有大量的薄壁细胞,少量的导管分散在薄壁细胞之间。这种次生生长为异常次生生长(anomalous secondary growth),从而使不定根膨大,形成块根。因此,怀地黄的药用部分在起源和结构上都属于根的性质,其药用部分应称为块根。  相似文献   

14.
Comparative localization of three classes of cell wall proteins.   总被引:15,自引:1,他引:14  
The localization of the cell wall proline-rich proteins (PRPs), and the gene expression of the cell wall glycine-rich proteins (GRPs) and the hydroxyproline-rich glycoproteins (HRGPs) were examined in several dicot species. The PRPs are accumulated in the corner walls of the cortex where several cells are joined together and in the protoxylem cell walls of 3-day-old soybean root. In 1-month-old soybean plants, the PRPs are specifically deposited in xylem vessel elements of the young stem, and they are accumulated in both phloem fibers and xylem vessel elements and fibers of the older stem. Likewise, the PRPs are localized in xylem vessel elements and fibers in tomato, petunia, potato and tobacco stems. They are also found in outer and inner phloem fiber cell walls of tomato stem and in outer phloem fiber cell walls of petunia stem. The gene expression of the HRGPs and the GRPs is developmentally regulated in tomato, petunia and tobacco stems. HRGP mRNAs are abundant in outer and inner phloem regions, while GRP mRNAs are present mostly in primary xylem and in the cambium region. Immunocytochemical localization showed that the GRPs have a localization pattern similar to that of the PRPs in tomato, petunia and tobacco stems.  相似文献   

15.
Preconditions of phloem transport in conifers are relatively unknown. We studied the variation of needle and inner bark axial osmotic gradients and xylem water potential in Scots pine and Norway spruce by measuring needle and inner bark osmolality in saplings and mature trees over several periods within a growing season. The needle and inner bark osmolality was strongly related to xylem water potential in all studied trees. Sugar concentrations were measured in Scots pine, and they had similar dynamics to inner bark osmolality. The sucrose quantity remained fairly constant over time and position, whereas the other sugars exhibited a larger change with time and position. A small osmotic gradient existed from branch to stem base under pre‐dawn conditions, and the osmotic gradient between upper stem and stem base was close to zero. The turgor in branches was significantly driven by xylem water potential, and the turgor loss point in branches was relatively close to daily minimum needle water potentials typically reported for Scots pine. Our results imply that xylem water potential considerably impacts the turgor pressure gradient driving phloem transport and that gravitation has a relatively large role in phloem transport in the stems of mature Scots pine trees.  相似文献   

16.
The xylem and phloem transport of mineral elements from stemnodal roots to the stem and stolon of growing potato (Solanumtuberosum L. cv. ‘Russet Burbank’) plants was investigated.Adventitious roots, originating from below-ground nodes of thestem of potato seedlings, were exposed to solutions of SrCI2or MnSO4. Relative elemental concentrations were measured inthe conductive tissues using energy dispersive X-ray analysis.After a 5 h daylight uptake period, Sr (a Ca-transport analogue)levels were elevated in the stem xylem tissue, but Sr did notincrease in the stem phloem, nor was it present in either ofthe conductive tissues of stolons located 1–2 nodes abovethe treated roots. In contrast, elevated levels of Cl, S, andMn were found in stolon xylem and phloem tissue during the sameperiod. The absence of Sr in the stolon after 5 h suggests thatno xylem flow into the stolon occurred during the uptake periodand, furthermore, phloem flow is responsible for the transportof the Cl, S, and Mn into the stolon. Elevated levels of thesemobile nutrients in the xylem of the stolon were attributedto xylem-to-phloem transfer in the stem or leaves, transportto the stolon in the phloem, and phloem-to-xylem transfer inthe stolon. During a 19 h uptake period, some Sr was observedin the phloem tissue of the stem, demonstrating slow exchangeof Sr with sieve elements or proximal phloem parenchyma andcompanion cells. Key words: Calcium, manganese, X-ray analysis  相似文献   

17.
Calcium is believed to be transported with water in the xylem. Consistent with this proposal, low‐transpiring organs such as potato Solanum tuberosum tubers are known to suffer from calcium deficiency. Although roots on tubers and stolons have been shown to supply water to tubers, there is no direct evidence for the calcium transport pathway to tubers. Both a xylem and a phloem transport pathway have been suggested. We investigated in vivo calcium transport to developing potato, cv. Dark Red Norland and cv. Russet Burbank, tubers using 45Ca in a controlled environment facility. Whole plant split pot experiments allowed the placement of 45Ca either in the main (basal) root or the tuber and stolon areas of the pot. The results showed that 45Ca was transported to the shoot with the transpiration stream from both areas but was not re‐translocated to tubers or the main (basal) root system even 57 days after 45Ca application. Radioactivity could only be detected in the tuber when 45Ca was fed to the stolon and tuber area. When 45Ca was fed to specific tubers, radioactivity was detected in the aerial shoot; however, no activity was detected in other tubers or the main (basal) roots. In another set of experiments, roots on a stolon near a tuber were precisely fed 45Ca and Safranin O. The radioactive signal exactly overlapped the water transport pathway in the tuber marked with Safranin O dye, suggesting that water and calcium can be simultaneously transported from stolon roots to the tuber. No transport of 45Ca across the tuber periderm was detected 8 days after 45Ca was applied to the tuber periderm. This indicated that no significant transport of calcium occurs from the soil across the periderm. Our results provide evidence that: (1) calcium is not re‐translocated via the phloem from the aerial shoot tubers and main (basal) roots; (2) the main root system does not supply calcium to the tuber; (3) calcium is not transported across the periderm to the interior tuber tissue; (4) calcium is transported to the tuber via the xylem along with water, and the roots on the stolon associated with the tuber supply water and calcium to the developing tuber; and (5) transpirational demand is a significant determinant of calcium distribution within the plant.  相似文献   

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