Materias dentro de su búsqueda.
Materias dentro de su búsqueda.
Plantas
306
Botánica
130
Plantas medicinales
81
Botánica médica
74
Ingeniería Mecánica Eléctrica
60
Plantas ornamentales
59
Cultivo
47
Plantas forrajeras
47
Historia
38
Identificación
37
Agricultura
34
Etnobotánica
34
Indígenas de México
32
Plantas cultivadas
32
Fisiología vegetal
31
Ecología vegetal
30
Materia médica vegetal
30
Enfermedades y plagas
29
Propagación de las plantas
28
Comunidades de plantas
26
Mejoramiento selectivo de las plantas
26
Plantas transgénicas
26
Enfermedades
24
Medicina tradicional
24
Nutrición de las plantas
23
Plantas tropicales
23
Clasificación
22
Fitogeografía
22
Crecimiento (Plantas)
21
Ecología
21
-
3781por Pane, Catello, Manganiello, Gelsomina, Vitti, Antonella, Celano, Rita, Piccinelli, Anna Lisa, De Falco, Enrica“…Then, four extracts were investigated for their biological activities in invitro and in planta assays. Extracts inhibited cress (Lepidium sativum)- and radish (Raphanus sativus)-seed germination and root elongation. …”
Publicado 2023
Enlace del recurso
Enlace del recurso
Enlace del recurso
Online Artículo Texto -
3782por Chen, Changxi, He, Gefeng, Li, Jianfang, Perez‐Hormaeche, Javier, Becker, Tobias, Luo, Manqing, Wallrad, Lukas, Gao, Junping, Li, Jia, Pardo, José M, Kudla, Jörg, Guo, Yan“…Loss of GSO1 function renders plants salt sensitive and GSO1 is both sufficient and required for activating the SOS2‐SOS1 module in yeast and in planta. Salt stress causes the accumulation of GSO1 in two specific and spatially defined areas of the root tip: in the endodermis section undergoing Casparian strip (CS) formation, where it reinforces the CIF‐GSO1‐SGN1 axis for CS barrier formation; and in the meristem, where it creates the GSO1‐SOS2‐SOS1 axis for Na(+) detoxification. …”
Publicado 2023
Enlace del recurso
Enlace del recurso
Enlace del recurso
Online Artículo Texto -
3783por Osborne, Rory, Rehneke, Laura, Lehmann, Silke, Roberts, Jemma, Altmann, Melina, Altmann, Stefan, Zhang, Yingqi, Köpff, Eva, Dominguez-Ferreras, Ana, Okechukwu, Emeka, Sergaki, Chrysi, Rich-Griffin, Charlotte, Ntoukakis, Vardis, Eichmann, Ruth, Shan, Weixing, Falter-Braun, Pascal, Schäfer, Patrick“…Using integrative network analysis, we show significant convergence on target-proteins shared with pathogens and exclusive targeting of Arabidopsis proteins in the phytohormone signalling network. Functional in planta screening and phenotyping of Si effectors and interacting proteins reveals previously unknown hormone functions of Arabidopsis proteins and direct beneficial activities mediated by effectors in Arabidopsis. …”
Publicado 2023
Enlace del recurso
Enlace del recurso
Enlace del recurso
Online Artículo Texto -
3784“…We also generated viable sumo1 sumo2 lines expressing a SUMO1(K0) variant specifically designed to help isolate SUMO conjugates and map SUMOylation sites, thus offering a new tool for investigating SUMO in planta.…”
Enlace del recurso
Enlace del recurso
Enlace del recurso
Online Artículo Texto -
3785por Rieger, Janine, Fitz, Michael, Fischer, Stefan Markus, Wallmeroth, Niklas, Flores-Romero, Hector, Fischer, Nina Monika, Brand, Luise Helene, García-Sáez, Ana J., Berendzen, Kenneth Wayne, Mira-Rodado, Virtudes“…In order to understand how the MSP functions in planta, it is crucial to unravel both the kinetics as well as the structural identity of the components involved in such interactions. …”
Publicado 2023
Enlace del recurso
Enlace del recurso
Enlace del recurso
Online Artículo Texto -
3786por Majhi, Bharat Bhusan, Gélinas, Sarah-Eve, Mérindol, Natacha, Ricard, Simon, Desgagné-Penix, Isabel“…Moreover, we show that NBS and NR physically interact in yeast and in-planta, that both localize to the cytoplasm and nucleus and are expressed at high levels in bulbs, confirming their colocalization and co-expression thus their ability to work together in the same catalytic route. …”
Publicado 2023
Enlace del recurso
Enlace del recurso
Enlace del recurso
Online Artículo Texto -
3787“…The heterologous expression of BvMYB1 results in activation of betalain biosynthesis genes in planta, allowing visualization of the systemic BtMV spread with the naked eye as red pigmentation emerging throughout beet leaves. …”
Enlace del recurso
Enlace del recurso
Enlace del recurso
Online Artículo Texto -
3788por Miller, Taryn A., Hudson, Debbie A., Johnson, Richard D., Singh, Jaspreet S., Mace, Wade J., Forester, Natasha T., Maclean, Paul H., Voisey, Christine R., Johnson, Linda J.“…Genetic modification events in these transformants were investigated through genome sequencing and in planta chemistry.…”
Publicado 2022
Enlace del recurso
Enlace del recurso
Enlace del recurso
Online Artículo Texto -
3789“…Recent identification of ITPK1 kinase, responsible for the production of 5-InsP(7) from InsP(6) in planta, provides a platform to investigate the possible involvement of ITPK-derived InsP species in JA-related plant development. …”
Enlace del recurso
Enlace del recurso
Enlace del recurso
Online Artículo Texto -
3790por Liang, Bingbing, Bai, Yuanjun, Zang, Chaoqun, Pei, Xue, Xie, Jinhui, Lin, Ying, Liu, Xiaozhou, Ahsan, Taswar, Liang, Chunhao“…Overexpression of AhS5H1 or AhS5H2 decreased SA content and increased 2,5-DHBA levels in Arabidopsis, suggesting that both enzymes had a similar role in planta. Moreover, overexpression of each AhS5H gene increased susceptibility to Pst DC3000. …”
Publicado 2023
Enlace del recurso
Enlace del recurso
Enlace del recurso
Online Artículo Texto -
3791
-
3792por El-Azaz, Jorge, Moore, Bethany, Takeda-Kimura, Yuri, Yokoyama, Ryo, Wijesingha Ahchige, Micha, Chen, Xuan, Schneider, Matthew, Maeda, Hiroshi A.“…Detailed in vitro enzyme characterization and combinatorial in planta expression uncovered that coordinated expression of specific enzyme isoforms at the entry and exit steps of the aromatic amino acid pathway enables grasses to maintain high production of both tyrosine and phenylalanine, the precursors of the dual lignin pathway. …”
Publicado 2023
Enlace del recurso
Enlace del recurso
Enlace del recurso
Online Artículo Texto -
3793por Scarpin, Dora, Nerva, Luca, Chitarra, Walter, Moffa, Loredana, D'Este, Francesca, Vuerich, Marco, Filippi, Antonio, Braidot, Enrico, Petrussa, Elisa“…Finally, to confirm the ability of NPs to increase the efficacy of dsRNA interference, specific tests were performed: by means of GFP dsRNA-functionalised NPs, the nucleotide permanence during time was assessed both in vitro on detached wild-type N. benthamiana leaves and in planta; lastly, the inhibition of Botrytis cinerea on single leaves was also evaluated, using a specific fungal sequence (Bc dsRNA) as the NPs’ functionalising agent. …”
Publicado 2023
Enlace del recurso
Enlace del recurso
Enlace del recurso
Online Artículo Texto -
3794por Dougherty, Peter Erdmann, Nielsen, Tue Kjærgaard, Riber, Leise, Lading, Helen Helgå, Forero-Junco, Laura Milena, Kot, Witold, Raaijmakers, Jos M., Hansen, Lars Hestbjerg“…Introducing and validating Virion Induction Profiling Sequencing (VIP-Seq), we identify and quantify the activity of 120 spontaneously induced prophages, discovering that some phyllosphere bacteria produce more than 10(8) virions/mL in overnight cultures, with significant induction also observed in planta. Sequence analyses and plaque assays reveal E. aphidicola prophages contribute a majority of intraspecies genetic diversity and divide their bacterial hosts into antagonistic factions engaged in widespread microbial warfare, revealing the importance of prophage-mediated microdiversity. …”
Publicado 2023
Enlace del recurso
Enlace del recurso
Enlace del recurso
Online Artículo Texto -
3795
-
3796por Gaillard, Stéphane, Jacquet, Hélène, Vavasseur, Alain, Leonhardt, Nathalie, Forestier, Cyrille“…CONCLUSION: The position of AtMRP6 on chromosome 3, flanked by two other MRP genes, (all of which being induced by Cd) suggests that AtMRP6 is part of a cluster involved in metal tolerance, although additional functions in planta cannot be discarded.…”
Publicado 2008
Enlace del recurso
Enlace del recurso
Enlace del recurso
Texto -
3797
-
3798“…This study aimed to determine its physiological role in planta. RESULTS: Our results demonstrate that the AtTIL lipocalin is involved in modulating tolerance to oxidative stress. …”
Enlace del recurso
Enlace del recurso
Enlace del recurso
Texto -
3799“…Zygotic embryos show expression until the heart stage. The in planta studies reveal a number of interesting expression patterns. …”
Enlace del recurso
Enlace del recurso
Enlace del recurso
Texto -
3800por Nieuwenhuizen, Niels J., Wang, Mindy Y., Matich, Adam J., Green, Sol A., Chen, Xiuyin, Yauk, Yar-Khing, Beuning, Lesley L., Nagegowda, Dinesh A., Dudareva, Natalia, Atkinson, Ross G.“…Bacterial expression and transient in planta data combined with analysis by enantioselective gas chromatography revealed that one TPS produced primarily (E,E)-α-farnesene and small amounts of (E)-β-ocimene, whereas the second TPS produced primarily (+)-germacrene D. …”
Publicado 2009
Enlace del recurso
Enlace del recurso
Enlace del recurso
Texto