共查询到20条相似文献,搜索用时 78 毫秒
1.
2.
Induced phenylpropanoid metabolism during suberization and lignification: a comparative analysis 总被引:2,自引:0,他引:2
Bernards MA Susag LM Bedgar DL Anterola AM Lewis NG 《Journal of plant physiology》2000,157(6):601-607
Induction of the biosynthesis of phenylpropanoids was monitored at the enzyme level through measurement of the temporal change in the activity of two marker enzymes of phenylpropanoid metabolism, phenylalanine ammonia-lyase, (PAL, E.C. 4.1.3.5) and 4-coumaryl-CoA ligase (4-CL, E.C. 6.2.1.12) and two marker enzymes for hydroxycinnamyl alcohol biosynthesis, cinnamoyl-CoA:NADP+ oxidoreductase (CCR, E.C. 1.2.1.44) and cinnamyl alcohol dehydrogenase (CAD, E.C. 1.1.1.195) in both suberizing potato (Solanum tuberosum) tubers and lignifying loblolly pine (Pinus taeda) cell cultures. While measurable activities of PAL, 4-CL and CAD increased upon initiation of suberization in potato tubers, that of CCR did not. By contrast, all four enzymes were induced upon initiation of lignification in pine cell cultures. The lack of CCR induction in potato by wound treatment is consistent with the channelling of hydroxycinnamoyl-CoA derivatives away from monolignol formation and toward other hydroxycinnamoyl derivatives such as those that accumulate during suberization. 相似文献
3.
Age-induced loss of wound-healing ability in potato tubers is partly regulated by ABA 总被引:2,自引:0,他引:2
G. N. Mohan Kumar Edward C. Lulai Jeffrey C. Suttle N. Richard Knowles 《Planta》2010,232(6):1433-1445
4.
5.
Yanni Zhang Alexandra Kachura Anica Bjelica M. Alejandra Rey Rincon Karina M. Kaberi Mark A. Bernards 《The Plant journal : for cell and molecular biology》2018,93(5):931-942
Wound‐induced suberin deposition involves the temporal and spatial coordination of phenolic and fatty acid metabolism. Phenolic metabolism leads to both soluble metabolites that accumulate as defense compounds as well as hydroxycinnamoyl derivatives that form the basis of the poly(phenolic) domain found in suberized tissue. Fatty acid metabolism involves the biosynthesis of very‐long‐chain fatty acids, 1‐alkanols, ω‐hydroxy fatty acids and α,ω‐dioic acids that form a poly(aliphatic) domain, commonly referred to as suberin. Using the abscisic acid (ABA) biosynthesis inhibitor fluridone (FD), we reduced wound‐induced de novo biosynthesis of ABA in potato tubers, and measured the impact on the expression of genes involved in phenolic metabolism (StPAL1, StC4H, StCCR, StTHT), aliphatic metabolism (StCYP86A33, StCYP86B12, StFAR3, StKCS6), metabolism linking phenolics and aliphatics (StFHT) or acyl chains and glycerol (StGPAT5, StGPAT6), and in the delivery of aliphatic monomers to the site of suberization (StABCG1). In FD‐treated tissue, both aliphatic gene expression and accumulation of aliphatic suberin monomers were delayed. Exogenous ABA restored normal aliphatic suberin deposition in FD‐treated tissue, and enhanced aliphatic gene expression and poly(aliphatic) domain deposition when applied alone. By contrast, phenolic metabolism genes were not affected by FD treatment, while FD + ABA and ABA treatments slightly enhanced the accumulation of polar metabolites. These data support a role for ABA in the differential induction of phenolic and aliphatic metabolism during wound‐induced suberization in potato. 相似文献
6.
Juan J. Camacho-Cristbal Dominique Anzellotti Agustín Gonzlez-Fontes 《Plant Physiology and Biochemistry》2002,40(12):170
The effects of boron (B) deficiency on several phenolics and enzyme activities involved in the biosynthesis of these compounds were investigated in tobacco plants (Nicotiana tabacum L. cv. Gatersleben). The levels of phenylpropanoids (mainly the caffeic acid esters, chlorogenic acid and its isomers) as well as phenylalanine ammonia-lyase (PAL, EC 4.3.1.5) and polyphenoloxidase (PPO, EC 1.14.18.1) activities were determined in plants subjected to B starvation for 1–7 d. The results presented here show that a short-term B deficiency causes both quantitative and qualitative changes in the phenolic metabolism of tobacco plants, which are especially evident after 3 d of B starvation. Although the concentration of B decreased from the onset of B starvation, root B level was less affected than leaf B by a short-term B deficiency. The concentration of phenylpropanoids as well as PAL and PPO activities increased mainly in the leaves of tobacco plants during B starvation. Moreover, leaves starved of B for 7 d showed the accumulation of new compounds, one of which was identified as caffeoylputrescine. In addition, a positive correlation between PAL activity and phenylpropanoid concentration was observed in tobacco leaves, especially after 5–7 d of B starvation, suggesting that an increase in PAL activity during B starvation could be responsible for the enhancement in the levels of phenylpropanoids. 相似文献
7.
8.
A. Westram J. R. Lloyd U. Roessner J. W. Riesmeier & J. Kossmann† 《Plant, cell & environment》2002,25(9):1133-1143
9.
Clé C Hill LM Niggeweg R Martin CR Guisez Y Prinsen E Jansen MA 《Phytochemistry》2008,69(11):2149-2156
Chlorogenic acid (CGA) is one of the most abundant phenolic compounds in tomato (Solanum lycopersicum). Hydroxycinnamoyl CoA quinate transferase (HQT) is the key enzyme catalysing CGA biosynthesis in tomato. We have studied the relationship between phenolic accumulation and UV-susceptibility in transgenic tomato plants with altered HQT expression. Overall, increased CGA accumulation was associated with increased UV-protection. However, the genetic manipulation of HQT expression also resulted in more complex alterations in the profiles of phenolics. Levels of rutin were relatively high in both HQT gene-silenced and HQT-overexpressing plants raised in plant growth tunnels. This suggests plasticity in the flux along different branches of phenylpropanoid metabolism and the existence of regulatory mechanisms that direct the flow of phenolic precursors in response to both metabolic parameters and environmental conditions. These changes in composition of the phenolic pool affected the relative levels of UV-tolerance. We conclude that the capability of the phenolic compounds to protect against potentially harmful UV radiation is determined both by the total levels of phenolics that accumulate in leaves as well as by the specific composition of the phenolic profile. 相似文献
10.
Molecular cloning and characterization of novel isoforms of potato ADP-glucose pyrophosphorylase 总被引:7,自引:0,他引:7
Ursula La Cognata Lothar Willmitzer Bernd Müller-Röber 《Molecular & general genetics : MGG》1995,246(5):538-548
ADP-glucose pyrophosphorylase (AGPase) is one of the major enzymes involved in starch biosynthesis in higher plants. We report here the molecular cloning of two cDNAs encoding so far uncharacterized isoforms (AGP S2 and AGP S3) of the potato enzyme. Sequence analysis shows that the two polypeptides are more homologous to previously identified large subunit polypeptides from potato and other plant species than to small subunit isoforms. This observation suggests that AGP S2 and AGP S3 represent novel large subunit polypeptides. agpS2 is expressed in several tissues of the potato plant, including leaves and tubers. Expression was stronger in sink leaves than in source leaves, indicating developmental regulation. In leaves, agpS2 expression was induced 2- to 3-fold by exogenous sucrose; therefore, agpS2 represents a new sucrose-responsive gene of starch metabolism. Expression of agpS3 was restricted to tubers: no agpS3 expression could be seen in leaves of different developmental stages, or when leaves were incubated in sucrose. Therefore, agpS3 represents the only AGPase gene so far characterized from potato, which is not expressed in leaves. Conversely, all four AGPase isoforms known from potato are expressed in tubers. 相似文献
11.
12.
Matros A Amme S Kettig B Buck-Sorlin GH Sonnewald U Mock HP 《Plant, cell & environment》2006,29(1):126-137
The effect of elevated CO2 concentrations on the levels of secondary metabolites was investigated in tobacco plants grown under two nitrogen supply (5 and 8 mM NH4NO3) and CO2 conditions (350 and 1000 p.p.m.) each. High CO2 resulted in a dramatic increase of phenylpropanoids in the leaves, including the major carbon-rich compound chlorogenic acid (CGA) and the coumarins scopolin and scopoletin at both nitrogen fertilizations. This was accompanied by increased PAL activity in leaves and roots, which was even higher at the lower nitrogen supply. Hardly any change was observed for the structural phenolic polymer lignin and the sesquiterpenoid capsidiol. In contrast, elevated CO2 led to clearly decreased levels of the main nitrogen-rich constituent nicotine at the lower N-supply (5 mM NH4NO3) but not when plants were grown at the higher N-supply (8 mM NH4NO3). Inoculation experiments with potato virus Y (PVY) were used to evaluate possible ecological consequences of elevated CO2. The titre of viral coat-protein was markedly reduced in leaves under these conditions at both nitrogen levels. Since PR-gene expression and free salicylic acid (SA) levels remained unchanged at elevated CO2, we suggest that the accumulation of phenylpropanoids, for example, the major compound CGA and the coumarins scopolin and scopoletin may result in an earlier confinement of the virus at high CO2. Based on our results two final conclusions emerge. First, elevated CO2 leads to a shift in secondary metabolite composition that is dependent on the availability of nitrogen. Second, changes in the pool of secondary metabolites have important consequences for plant-pathogen interactions as shown for PVY as a test organism. 相似文献
13.
14.
Genetic enhancement of oil content in potato tuber (Solanum tuberosum L.) through an integrated metabolic engineering strategy
下载免费PDF全文
![点击此处可从《Plant biotechnology journal》网站下载免费的PDF全文](/ch/ext_images/free.gif)
Qing Liu Sehrish Akbar Yao Zhi Anna El Tahchy Madeline Mitchell Zhongyi Li Pushkar Shrestha Thomas Vanhercke Jean‐Philippe Ral Guolu Liang Ming‐Bo Wang Rosemary White Philip Larkin Surinder Singh James Petrie 《Plant biotechnology journal》2017,15(1):56-67
15.
Vitamin E (tocopherol) is a powerful antioxidant essential for human health and synthesized only by photosynthetic organisms.
The effects of over-expression of tocopherol biosynthetic enzymes have been studied in leaves and seeds, but not in a non-photosynthetic,
below-ground plant organ. Genetic and molecular approaches were used to determine if increased levels of tocopherols can be
accumulated in potato (Solanum tuberosum L.) tubers through metabolic engineering. Two transgenes were constitutively over-expressed in potato: Arabidopsis thaliana p-hydroxyphenylpyruvate dioxygenase (At-HPPD) and A. thaliana homogentisate phytyltransferase (At-HPT). α-Tocopherol levels in the transgenic plants were determined by high-performance
liquid chromatography. In potato tubers, over-expression of At-HPPD resulted in a maximum 266% increase in α-tocopherol, and
over-expression of At-HPT yielded a 106% increase. However, tubers from transgenic plants still accumulated approximately
10- and 100-fold less α-tocopherol than leaves or seeds, respectively. The results indicate that physiological and regulatory
constraints may be the most limiting factors for tocopherol accumulation in potato tubers. Studying regulation and induction
of tocopherol biosynthesis should reveal approaches to more effectively engineer crops with enhanced tocopherol content. 相似文献
16.
17.
Yuxing Deng 《植物科学评论》2017,36(4):257-290
18.
19.
20.
Ruth Lorberth Christian Dammann Marcus Ebneth Simone Amati Jose J. Sánchez-Serrano 《The Plant journal : for cell and molecular biology》1992,2(4):477-486
The proteinase inhibitor II (pin2) gene family exhibits two different modes of expression. It is, on the one hand, constitutively expressed in flowers of potato and tomato plants. and in potato tubers. On the other hand, its expression is induced in the plant foliage by mechanical wounding. To define cis-regulatory elements involved in pin2 promoter activity, deletion analysis of a potato pin2 promoter has been performed in stably and transiently transformed potato and tobacco plants. Two different elements, a quantitative enhancer and a regulatory element, are required for promoter activity. While functional promoter elements required for pin2 activity in tubers and wounded leaves could not be separated, its expression in flowers is mediated by different cis-acting sequences. Induction of pin2 expression in leaves by treatment with the plant growth regulators abscisic acid and jasmonic acid, and the general metabolite sucrose, depends on the presence of the regulatory element involved in expression in tubers and wounded leaves. Thus, pin2 expression in tubers and wounded leaves apparently results from the action of similar hormonal signals on closely linked promoter elements, while a different signal pathway leads to its constitutive expression in flowers. 相似文献