23 research outputs found
Phosphoglycerate Kinases Are Co-Regulated to Adjust Metabolism and to Optimize Growth
[EN] In plants, phosphoglycerate kinase (PGK) converts 1,3-bisphosphoglycerate into 3-phosphoglycerate in glycolysis but also participates in the reverse reaction in gluconeogenesis and the Calvin-Benson cycle. In the databases, we found three genes that encode putative PGKs. Arabidopsis (Arabidopsis thaliana) PGK1 was localized exclusively in the chloroplasts of photosynthetic tissues, while PGK2 was expressed in the chloroplast/plastid of photosynthetic and nonphotosynthetic cells. PGK3 was expressed ubiquitously in the cytosol of all studied cell types. Measurements of carbohydrate content and photosynthetic activities in PGK mutants and silenced lines corroborated that PGK1 was the photosynthetic isoform, while PGK2 and PGK3 were the plastidial and cytosolic glycolytic isoforms, respectively. The pgk1.1 knockdown mutant displayed reduced growth, lower photosynthetic capacity, and starch content. The pgk3.2 knockout mutant was characterized by reduced growth but higher starch levels than the wild type. The pgk1.1 pgk3.2 double mutant was bigger than pgk3.2 and displayed an intermediate phenotype between the two single mutants in all measured biochemical and physiological parameters. Expression studies in PGK mutants showed that PGK1 and PGK3 were down-regulated in pgk3.2 and pgk1.1, respectively. These results indicate that the down-regulation of photosynthetic activity could be a plant strategy when glycolysis is impaired to achieve metabolic adjustment and optimize growth. The double mutants of PGK3 and the triose-phosphate transporter (pgk3.2 tpt3) displayed a drastic growth phenotype, but they were viable. This implies that other enzymes or nonspecific chloroplast transporters could provide 3-phosphoglycerate to the cytosol. Our results highlight both the complexity and the plasticity of the plant primary metabolic network.This work has been funded by the Spanish Government and the European Union: FEDER/ BFU2012-31519 and FEDER/ BFU2015-64204R, FPI fellowship to S.R.-T., and the Valencian Regional Government: PROMETEO II/2014/052.Rosa-Tellez, S.; Anoman, A.; Flores-Tornero, M.; Toujani, W.; Alseek, S.; Fernie, A.; Nebauer, SG.... (2018). Phosphoglycerate Kinases Are Co-Regulated to Adjust Metabolism and to Optimize Growth. PLANT PHYSIOLOGY. 176(2):1182-1198. https://doi.org/10.1104/pp.17.01227S11821198176
Deficiency in the Phosphorylated Pathway of Serine Biosynthesis Perturbs Sulfur Assimilation
Anoman AD, Flores-Tornero M, Benstein RM, et al. Deficiency in the Phosphorylated Pathway of Serine Biosynthesis Perturbs Sulfur Assimilation. PLANT PHYSIOLOGY. 2019;180(1):153-170.Although the plant Phosphorylated Pathway of L-Ser Biosynthesis (PPSB) is essential for embryo and pollen development, and for root growth, its metabolic implications have not been fully investigated. A transcriptomics analysis of Arabidopsis (Arabidopsis thaliana) PPSB-deficient mutants at night, when PPSB activity is thought to be more important, suggested interaction with the sulfate assimilation process. Because sulfate assimilation occurs mainly in the light, we also investigated it in PPSB-deficient lines in the day. Key genes in the sulfate starvation response, such as the adenosine 5'phosphosulfate reductase genes, along with sulfate transporters, especially those involved in sulfate translocation in the plant, were induced in the PPSB-deficient lines. However, sulfate content was not reduced in these lines as compared with wild-type plants; besides the glutathione (GSH) steady-state levels in roots of PPSB-deficient lines were even higher than in wild type. This suggested that PPSB deficiency perturbs the sulfate assimilation process between tissues/organs. Alteration of thiol distribution in leaves from different developmental stages, and between aerial parts and roots in plants with reduced PPSB activity, provided evidence supporting this idea. Diminished PPSB activity caused an enhanced flux of S-35 into thiol biosynthesis, especially in roots. GSH turnover also accelerated in the PPSB-deficient lines, supporting the notion that not only biosynthesis, but also transport and allocation, of thiols were perturbed in the PPSB mutants. Our results suggest that PPSB is required for sulfide assimilation in specific heterotrophic tissues and that a lack of PPSB activity perturbs sulfur homeostasis between photosynthetic and nonphotosynthetic tissues
Lazarus1, a DUF300 Protein, Contributes to Programmed Cell Death Associated with Arabidopsis acd11 and the Hypersensitive Response
Programmed cell death (PCD) is a necessary part of the life of multi-cellular organisms. A type of plant PCD is the defensive hypersensitive response (HR) elicited via recognition of a pathogen by host resistance (R) proteins. The lethal, recessive accelerated cell death 11 (acd11) mutant exhibits HR-like accelerated cell death, and cell death execution in acd11 shares genetic requirements for HR execution triggered by one subclass of R proteins
Early-Career Coordinated Distributed Experiments: Empowerment Through Collaboration
Este artículo contiene 7 páginas, 1 tabla, 3 figuras.Coordinated distributed experiments (CDEs) enable the study of large-scale ecological
patterns in geographically dispersed areas, while simultaneously providing broad
academic and personal benefits for the participants. However, the effective involvement
of early-career researchers (ECRs) presents major challenges. Here, we analyze the
benefits and challenges of the first CDE exclusively led and conducted by ECRs (i.e.
ECR-CDE), which sets a baseline for similar CDEs, and we provide recommendations
for successful CDE execution. ECR-CDEs achieve most of the outcomes identified in
conventional CDEs as well as extensive benefits for the young cohort of researchers,
including: (i) receiving scientific credit, (ii) peer-training in new concepts and methods, (iii)
developing leadership and communication skills, (iv) promoting a peer network among
ECRs, and (v) building on individual engagement and independence. We also discuss
the challenges of ECR-CDEs, which are mainly derived from the lack of independence
and instability of the participants, and we suggest mechanisms to address them, such
as resource re-allocation and communication strategies. We conclude that ECR-CDEs
can be a relevant tool to empower ECRs across disciplines by fostering their training,
networking and personal well-being.The authors were supported by the following founding: NC
the support of the Beatriu de Pinós postdoctoral program of
the Government of Catalonia’s Secretariat for Universities and
Research of the Ministry of Economy and Knowledge (BP2016-
00215), EE by a predoctoral grant from the Basque Government
(2014-2017), AB by a Generalitat de Catalunya—Beatriu de
Pinós (BP-00385-2016), AMG-F by a predoctoral research grant
(BES-2013-065770) from the Spanish Ministry of Economy and
Competitiveness, MAr by a postdoctoral grant from the Basque
Government, MIA by a Juan de la Cierva postdoctoral grant
(FJCI-2015-26192), PR-L by a Margalida Comas postdoctoral
contract (PD/031/2018) funded by the Government of the
Balearic Islands and the European Social Fund, AP by a Ramón
Areces Foundation Postdoctoral Scholarship, and AL by a Kempe
Foundation stipend. DOMIPEX project was founded by the First
Call of Collaborative Projects among Young Researchers of the
Iberian Association of Limnology (AIL; 2013-2015).Peer reviewe
Functional Characterization of the Plastidial 3-Phosphoglycerate Dehydrogenase Family in Arabidopsis
This work contributes to unraveling the role of the phosphorylated pathway of serine (Ser) biosynthesis in Arabidopsis (Arabidopsis thaliana) by functionally characterizing genes coding for the first enzyme of this pathway, 3-phosphoglycerate dehydrogenase (PGDH). We identified two Arabidopsis plastid-localized PGDH genes (3-PGDH and EMBRYO SAC DEVELOPMENT ARREST9 [EDA9]) with a high percentage of amino acid identity with a previously identified PGDH. All three genes displayed a different expression pattern indicating that they are not functionally redundant. pgdh and 3-pgdh mutants presented no drastic visual phenotypes, but eda9 displayed delayed embryo development, leading to aborted embryos that could be classified as early curled cotyledons. The embryo-lethal phenotype of eda9 was complemented with an EDA9 complementary DNA under the control of a 35S promoter (Pro-35S:EDA9). However, this construct, which is poorly expressed in the anther tapetum, did not complement mutant fertility. Microspore development in eda9.1eda9.1 Pro-35S:EDA9 was arrested at the polarized stage. Pollen from these lines lacked tryphine in the interstices of the exine layer, displayed shrunken and collapsed forms, and were unable to germinate when cultured in vitro. A metabolomic analysis of PGDH mutant and overexpressing plants revealed that all three PGDH family genes can regulate Ser homeostasis, with PGDH being quantitatively the most important in the process of Ser biosynthesis at the whole-plant level. By contrast, the essential role of EDA9 could be related to its expression in very specific cell types. We demonstrate the crucial role of EDA9 in embryo and pollen development, suggesting that the phosphorylated pathway of Ser biosynthesis is an important link connecting primary metabolism with development
The phosphorylated pathway of serine biosynthesis is essential both for male gametophyte and embryo development and for root growth in Arabidopsis
This study characterizes the phosphorylated pathway of Ser biosynthesis (PPSB) in Arabidopsis thaliana by targeting phosphoserine phosphatase (PSP1), the last enzyme of the pathway. Lack of PSP1 activity delayed embryo development, leading to aborted embryos that could be classified as early curled cotyledons. The embryo-lethal phenotype of psp1 mutants could be complemented with PSP1 cDNA under the control of Pro35S (Pro35S:PSP1). However, this construct, which was poorly expressed in the anther tapetum, did not complement mutant fertility. Microspore development in psp1.1/psp1.1 Pro35S:PSP1 arrested at the polarized stage. The tapetum from these lines displayed delayed and irregular development. The expression of PSP1 in the tapetum at critical stages of microspore development suggests that PSP1 activity in this cell layer is essential in pollen development. In addition to embryo death and male sterility, conditional psp1 mutants displayed a shortroot phenotype, which was reverted in the presence of Ser. A metabolomic study demonstrated that the PPSB plays a crucial role in plant metabolism by affecting glycolysis, the tricarboxylic acid cycle, and the biosynthesis of amino acids. We provide evidence of the crucial role of the PPSB in embryo, pollen, and root development and suggest that this pathway is an important link connecting primary metabolism with development. © 2013 American Society of Plant Biologists. All rights reserved
Productividad de cochinilla Dactylopius coccus (Hemiptera: Dactylopiidae) en cladodios de Opuntia ficus-indica (Cactacea) con diferentes tratamientos de fertilizaci\uf3n
Para determinar la influencia del contenido nutrimental y características anatómicas de cladodios de nopal (Opuntia ficus-indica L. Mill.) provenientes de cuatro tratamientos de fertilización química y orgánica sobre el rendimiento de cochinilla Dactylopius coccus, con respecto al número de hembras y su peso seco, así como de su calidad, en función del contenido de ácido carmínico, se estableció un estudio en condiciones de invernadero en el estado de Morelos. Aquellos cladodios a los que se les adicionó solo fertilización química generaron el mayor número de hembras y peso seco; mientras que los insectos criados sobre cladodios a los que se les aplicó fertilización química-orgánica presentaron los valores mayores de ácido carmínico. El contenido de oxalatos de calcio en el cladodio y el grosor de la cutícula influyeron negativamente en el número de hembras por cladodio. Se registró una correlación positiva significativa entre el contenido de nitrógeno en el cladodio y el número de hembras; no obstante, el nitrógeno influyó negativamente en el contenido de ácido carmínico. La fertilización previa a la que es sometida el nopal puede influir en el rendimiento y calidad de D. coccus