期刊,Plant Physiology and Biochemistry 2022年172卷期_国家学术搜索

期刊信息/Journal information

Plant Physiology and Biochemistry

Gauthier-Villars

主办单位：Gauthier-Villars

国际刊号：0981-9428

Plant Physiology and Biochemistry/Journal Plant Physiology and BiochemistrySCIISTP

正式出版

收录年代

Effects of exogenous L-Glutamine as a sole nitrogen source on physiological characteristics and nitrogen use efficiency of poplar

Han, MeiXu, MingyueWang, ShizhenWu, Liangdan...

13页

查看更多>>摘要：L-Glutamine (Gln) is a proteinogenic amino acid, N transporter and NH3 carrier, engaging in diversified pathways for synthesizing many important molecules. However, the effects of exogenous Gln on plant growth and development remain largely unknown. In this study, different concentrations of Gln were supplemented in the poplar hybrid 'Nanlin895' culture medium as a sole N source. Their effects on poplar growth, photosynthesis, N metabolism-related enzymes and metabolites were elucidated. Strikingly, 0.5 mM Gln-fed poplars showed no considerable growth compromise compared to the inorganic N control (CK-N), even though their N supply level was only half that of the CK-N control. What's more, their NUE was enhanced. In addition, 0.5 mM Gln treatment significantly increased the contents of amino acids in coordination with soluble sugars in the roots, while marginal effects in the leaves were observed compared to CK-N. By contrast, applying a high level of Gln (> 0.5 mM) resulted in larger accumulation of amino acids and starch, but lower level of soluble sugars, particularly in the roots, followed by adverse effects on poplar biomass, photosynthesis, enzyme activities and NUE; consequently, poplar growth was inhibited. Collectively, these findings allow us to deduce that poplar plants are competent to take up and utilize Gln as a sole N source. When applied at an appropriate level, Gln could promote a dynamic equilibrium of N and C, conferring sound growth performance and additional benefit for the environment as indicated by higher NUE, lower N input and higher biocompatible nature than the inorganic N.

原文链接:

NSTL
Elsevier

Impact of nanoparticles and their ionic counterparts derived from heavy metals on the physiology of food crops

Tighe-Neira, RicardoNunes-Nesi, AdrianoInostroza-Blancheteau, ClaudioGonzalez-Villagra, Jorge...

10页

查看更多>>摘要：Heavy metals and their engineered nanoparticle (NP) counterparts are emerging contaminants in the environment that have captured the attention of researchers worldwide. Although copper, iron, zinc and manganese are essential micronutrients for food crops, higher concentrations provoke several physiological and biochemical alterations that in extreme cases can lead to plant death. The effects of heavy metals on plants have been studied but the influence of nanoparticles (NPs) derived from these heavy metals, and their comparative effect is less known. In this critical review, we have found similar impacts for copper and manganese ionic and NP counterparts; in contrast, iron and zinc NPs seem less toxic for food crops. Although these nutrients are metals that can be dissociated in water, few authors have conducted joint ionic state and NP assays to evaluate their comparative effect. More efforts are thus required to fully understand the impact of NPs and their ion counterparts at the physiological, metabolic and molecular dimensions in crop plants.

原文链接:

NSTL
Elsevier

Ectopic expression of Populus MYB10 promotes secondary cell wall thickening and inhibits anthocyanin accumulation

Jiang, Peng-FeiLin, Xiao-YangBian, Xiu-YanZeng, Qing-Yin...

9页

查看更多>>摘要：Secondary cell wall (SCW) formation is regulated by a multilevel transcriptional regulatory network, in which MYB transcription factors (TFs) play key roles. In woody plants, hundreds of MYB TFs have been identified, most of which have unknown functions in wood SCW biosynthesis. Here, we characterized the function of a Populus MYB gene, PtoMYB10. PtoMYB10 was found to encode an R2R3-MYB TF and exhibit dominant expression in xylem tissues. PtoMYB10 was determined to be located in the nucleus with the ability to activate transcription. Overexpression of PtoMYB10 in Populus resulted in a drastic increase in SCW thickening in xylem fiber cells as well as ectopic deposition of lignin in cortex cells. The expression of genes associated with lignin biosynthesis was induced in PtoMYB10 overexpressing plants, whereas repressed gene expression was found with the anthocyanin biosynthesis pathway. Lignin and anthocyanin are both produced from metabolites of the phe-nylpropanoid pathway. Accordingly, the anthocyanin content of Populus overexpressing PtoMYB10 decreased by more than 68%. These results indicate that PtoMYB10 can positively regulate xylary fiber SCW thickening, accompanied by the reprogramming of phenylpropanoid metabolism, which redirects metabolic flux from anthocyanin biosynthesis to monolignol biosynthesis.

原文链接:

NSTL
Elsevier

Systematic analysis of the non-specific lipid transfer protein gene family in Nicotiana tabacum reveal its potential roles in stress responses

Yang, YongxiaLi, PengLiu, CheWang, Peng...

15页

查看更多>>摘要：Plant non-specific lipid transfer proteins (nsLTPs) are characterized by an eight-cysteine motif backbone stabilized by four disulfide bonds; these proteins can bind or transfer lipids. NsLTPs play important roles in plant growth and development, and in the responses to abiotic and biotic stresses. In this study, 50, 51, and 100 nsLTPs from Nicotiana sylvestris, N. tomentosiformis, and their descendant N. tabacum, respectively, were identified and classified into six types (I, II, IV, V, VII, and VIII). The phylogeny, gene structures, motifs, tertiary structures, gene duplications and expression patterns were systematically analyzed. The intron/exon patterns and the conserved motifs were highly similar among the same types of nsLTP genes. Purifying selection and segmental duplication dominated the expansion of the nsLTPs family during evolution. Cis-regulatory elements of the NtLTP promoters were involved in light responsiveness, abiotic stress, and phytohormone responsiveness. Expression pattern analysis using RNA-seq and qPCR revealed that NtLTP family genes exhibited tissue-specific expression patterns and they have potential roles in response to abiotic and biotic stresses, especially drought stress, and resistance to black shank and bacterial wilt. Furthermore, overexpression of NtLTPI.38 in tobacco increased drought tolerance by improving the antioxidant defense ability, through reducing O-2 center dot & mdash; and H2O2 accumulation and increasing the number of lateral roots. These results provide a comprehensive overview of this gene family and provide valuable insights for the functional characterization of nsLTP family genes.

原文链接:

NSTL
Elsevier

Specialized metabolites: Physiological and biochemical role in stress resistance, strategies to improve their accumulation, and new applications in crop breeding and management

Marone, DanielaMastrangelo, Anna MariaBorrelli, Grazia MariaMores, Antonia...

8页

查看更多>>摘要：Specialized plant metabolites (SPMs), traditionally referred to as 'secondary metabolites', are chemical compounds involved in a broad range of biological functions, including plant responses to abiotic and biotic stresses. Moreover, some of them have a role in end-product quality with potential health benefits in humans. For this reason, they became an important target of studies focusing on their mechanisms of action and use in crop breeding and management.In this review we summarize the specific role of SPMs in physiological processes and in plant resistance to abiotic and biotic stresses, and the different strategies to enhance their production/accumulation in plant tissues under stress, including genetic approaches (marker-assisted selection and biotechnological tools) and agronomic management (fertilizer applications, cultivation method and beneficial microorganisms). New crop management strategies based on the direct application of the most promising compounds in form of plant residuals or liquid formulations are also described.

原文链接:

NSTL
Elsevier

Potassium in plants: Growth regulation, signaling, and environmental stress tolerance

Hasanuzzaman, MirzaSarraf, MohammadJohnson, RiyaVishwakarma, Kanchan...

14页

查看更多>>摘要：Potassium (K) is an essential element for the growth and development of plants; however, its scarcity or excessive level leads to distortion of numerous functions in plants. It takes part in the control of various significant functions in plant advancement. Because of the importance index, K is regarded second after nitrogen for whole plant growth. Approximately, higher than 60 enzymes are reliant on K for activation within the plant system, in which K plays a vital function as a regulator. Potassium provides assistance in plants against abiotic stress conditions in the environment. With this background, the present paper reviews the physiological functions of K in plants like stomatal regulation, photosynthesis and water uptake. The article also focuses upon the uptake and transport mechanisms of K along with its role in detoxification of reactive oxygen species and in conferring tolerance to plants against abiotic stresses. It also highlights the research progress made in the direction of K mediated signaling cascades.

原文链接:

NSTL
Elsevier

Insight into VvGH3 genes evolutional relationship from monocotyledons and dicotyledons reveals that VvGH3-9 negatively regulates the drought tolerance in transgenic Arabidopsis

Lu, ShixiongWang, PingNai, GuojieLi, Yanmei...

17页

查看更多>>摘要：The Gretchen Hagen3 (GH3) gene family is necessary for growth and development in plants and is regulated by osmotic stress and various hormones. Although it has been reported in many plants, the evolutionary relationship of GH3 in grape has not been systematically analyzed from the perspective of monocotyledonous and dicotyledonous. This study identified and analyzed 188 GH3 genes, which were distinctly divided into 9 subgroups, and found these subgroups have obviously been clustered between monocotyledonous and dicotyledonous. VvGH3-x genes had higher synteny with apple and Arabidopsis than that of rice, and the average Ka/Ks value in monocotyledons was higher than that of dicotyledons. The codon usage index showed that monocotyledons preferred to use G3s, C3s, and GC3s, while dicotyledons preferred to use A3s and T3s. The GH3 genes of grape exhibited different expression patterns in various tissues, different abiotic stresses, and hormonal treatments. The sub cellular localization showed that VvGH3-9 was expressed in the nucleus and cytoplasm. Additionally, under 20% PEG treatment, the IAA and ABA contents, relative expression levels of VvGH3-9, relative electrical conductivity (REC), as well as MDA were obviously increased in VvGH3-9 overexpression lines at 72 h. In contrast, compared to WT, the contents of proline and H2O2, the activities of POD, SOD, and CAT, and the relative expression levels of drought responsive genes were significantly decreased in overexpressing lines. Collectively, this study provided helpful insight for the evolution of GH3 genes and presented some possibilities to study the functions of GH3 genes in monocotyledons and dicotyledons.

原文链接:

NSTL
Elsevier

Identification and expression analysis of the ZRT, IRT-like protein (ZIP) gene family in Camellia sinensis (L.) O. Kuntze

Zheng, ShutingDai, HongweiMeng, QingHuang, Rui...

14页

查看更多>>摘要：The ZRT, IRT-like protein (ZIP) family plays an essential role in the homeostasis of zinc and iron in plants. However, studies on this family are mainly limited to model species. Here, 12 CsZIPs were identified and investigated the function in Camellia sinensis, being named CsZIP1-12 and divided into four different groups based on phylogenetic relationships. These CsZIPs contained 2-9 TMDs and other conserved motifs for ZIP proteins. And CsZIPs were located in cell membrane, excepting for CsZIP4 and CsZIP6. The expression of CsZIPs were different in varieties and organs of tea plants. They were involved in the response process of abiotic stresses, such as NaCl, drought, cold and exogenous Me-JA. In addition, 31 types of promoter elements were identified in the CsZIPs, including core promoters, light responsiveness, stress responsive and other elements. The CsZIP1, CsZIP2, CsZIP4, CsZIP5, CsZIP6, CsZIP11 and CsZIP12 could be induced by zinc deficiency and 50 mu M Zn treatment, but CsZIP7 and CsZIP8 were up regulated by 300 mu M Zn. Heterogeneous complementation analysis showed that CsZIP1, CsZIP2, CsZIP7 and CsZIP8 could complement the Zn sensitivity of delta zrc1cot1 yeast double mutant. There was a positive correlation between the expression of CsZIPs and secondary metabolites in tea plant. Together, our analysis of CsZIPs could provide comprehensive insights on the structure and function of this protein family in the regulation of zinc and ion homeostasis in the tea plant.

原文链接:

NSTL
Elsevier

Sex-specific nitrogen allocation tradeoffs in the leaves of Populus cathayana cuttings under salt and drought stress

Liu, MiaoLiu, XiuchengZhao, YangKorpelainen, Helena...

10页

查看更多>>摘要：Nitrogen (N) partitioning within a leaf affects leaf photosynthesis and adaptation to environmental fluctuations. However, how plant sex influences leaf N allocation and its tradeoffs in acclimation to drought, excess salt and their combination remains unknown. Here, leaf N allocation between the photosynthetic and non-photosynthetic apparatus and among the components of the photosynthesis in Populus cathayana Rehder females and males were investigated under drought, salt and their combination to clarify the underlying mechanism. We found that males with a lower leaf N allocation (N-L) into non-protein N (N-np), showed a greater leaf N allocation into photosynthetic apparatus, especially into the carboxylation component under all treatments, and a greater leaf N allocation into cell wall under drought and salt stress alone, consequently causing higher photosynthetic N use efficiency (PNUE) and tolerance to stresses. Conversely, females had a greater leaf N allocation into N-np under all treatments than males and a lower leaf photosynthetic N (NP) allocation. There was a tradeoff in leaf N allocation among photosynthetic apparatus (N-P/N-L), cell wall (N-CW/N-L) and N-np, which explained plant responses to drought, salt and their combination. Moreover, the leaf N allocation into the carboxylation component could explain the intersexual difference in responses to all treatments, while leaf cell wall N (N-CW) and N-np reflected intrasexual differences among treatments in both sexes. These findings indicate sex-specific strategies in coping with drought, salt and their combination that relate to leaf N allocation, which may contribute to sex-specific photosynthesis and niche segregation.

原文链接:

NSTL
Elsevier

Interactive effects of nitrogen, UV and PAR on barley morphology and biochemistry are associated with the leaf C:N balance

Klem, K.Oravec, M.Holub, P.Simor, J....

14页

查看更多>>摘要：Environmental conditions to which plants acclimate prior exposure to abiotic or biotic stressors can greatly affect their subsequent resilience. This may have a significant impact on the response to ongoing climate change and can be useful for increasing the food security under adverse weather conditions associated with climate change. Within this study, we tested the hypothesis that plant morphological and biochemical acclimation to radiation conditions and nitrogen (N) availability is closely linked with carbon (C) and N balance. Four barley (Hordeum vulgare) varieties, differing in their morphological characteristics and sensitivity to photooxidative stress, were grown at two levels of N supply and four radiation regimes combining distinct levels of ultraviolet (UV) and photosynthetically active radiation (PAR). Changes in root and shoot morphology, accumulation of phenolic compounds, amino acids, and sugars were studied together with the analysis of C and N content in leaves. Both UV and PAR reduced leaf length and increased root-to-shoot ratio (R:S). Such effect was more pronounced under high N availability. High N supply reduced R:S, but this effect showed significant interactions with UV and PAR, and also with barley variety. Changes in R:S were positively related to C:N ratio in leaves that varied in response to both N availability and radiation treatments. UV radiation, particularly in combination with high PAR intensity, led to increases in most phenolic compounds (particularly flavones such as saponarin, homoorientin and isovitexin) which was also closely associated with changes in C:N ratio, while specifically phenolic acids (vanillic and syringic acids) decreased under high levels of UV and PAR, and hydroxycinnamic acids responded positively mainly to PAR. Although high N availability generally reduced the accumulation of phenolic compounds, this effect was genotype-specific and modulated by the radiation regime. A similar antagonistic effect of radiation treatment and N availability was also found for the accumulation of sugars (pentoses), resulting in a close relationship between the accumulation of pentoses and C:N ratio. The accumulation of most amino acids, in contrary to phenolic compounds, increases at high N and is also stimulated by high PAR and UV intensities. We conclude that radiation conditions and N availability have opposite effects on plant morphology and accumulation of most phenolic compounds and modulate the amino acid and sugar metabolism. Strong associations of these responses with changes in C:N ratio indicates that plant stoichiometry integrates acclimation processes and induction of relevant defence mechanisms.

原文链接:

NSTL
Elsevier