UAB Digital Repository of Documents 6 records found  Search took 0.01 seconds. 
1.
51 p, 4.9 MB Deep Sequencing Reveals Early Reprogramming of Arabidopsis Root Transcriptomes Upon Ralstonia solanacearum Infection / Zhao, Cuizhu (Northwest A&F University. College of Agronomy) ; Wang, Huijuan (Northwest A&F University. College of Agronomy) ; Lu, Yao (Northwest A&F University. College of Agronomy) ; Hu, Jinxue (Northwest A&F University. College of Agronomy) ; Qu, Ling (Northwest A&F University. College of Agronomy) ; Li, Zheqing (Northwest A&F University. College of Agronomy) ; Wang, Dongdong (Northwest A&F University. College of Agronomy) ; He, Yizhe (Northwest A&F University. College of Agronomy) ; Valls, Marc (Centre de Recerca en Agrigenòmica) ; Coll, Núria (Centre de Recerca en Agrigenòmica) ; Chen, Qin (Northwest A&F University. College of Agronomy) ; Lu, Haibin (Northwest A&F University. College of Agronomy)
2019
Molecular plant-microbe interactions, Vol. 32, no. 7 (July 2019)  
2.
Type III secretion inhibitors for the management of bacterial plant diseases / Puigvert, Marina (Centre de Recerca en Agrigenòmica) ; Solé, Montserrat (Centre de Recerca en Agrigenòmica) ; López‐Garcia, Belén (Centre de Recerca en Agrigenòmica) ; Coll, Núria (Centre de Recerca en Agrigenòmica) ; Beattie, Karren D. (Griffith Institute for Drug Discovery) ; Davis, Rohan A. (Griffith Institute for Drug Discovery) ; Elofsson, Mikael (Umeå University. Department of Chemistry) ; Valls, Marc (Universitat Autònoma de Barcelona. Departament de Genètica i Microbiologia)
The identification of chemical compounds that prevent and combat bacterial diseases is fundamental for crop production. Bacterial virulence inhibitors are a promising alternative to classical control treatments, because they have a low environmental impact and are less likely to generate bacterial resistance. [...]
2019 - 10.1111/mpp.12736
Molecular plant pathology, Vol. 20, issue 1 (Jan. 2019) , p. 20-32  
3.
50 p, 4.9 MB Clp protease and OR directly control the proteostasis of phytoene synthase, the crucial enzyme for carotenoid biosynthesis in Arabidopsis / Welsch, Ralf (University of Freiburg. Faculty of Biology II) ; Zhou, Xiangjun (Cornell University. Center for Agriculture and Health) ; Yuan, Hui (Cornell University. Center for Agriculture and Health) ; Álvarez, Daniel (University of Freiburg. Faculty of Biology II) ; Sun, Tianhu (Cornell University. Center for Agriculture and Health) ; Schlossarek, Dennis (University of Freiburg. Faculty of Biology II) ; Yang, Yong (Cornell University. Center for Agriculture and Health) ; Shen, Guoxin (Zhejiang Academy of Agricultural Sciences) ; Zhang, Hong (Texas Tech University. Department of Biological Sciences) ; Rodriguez-Concepcion, Manuel (Centre de Recerca en Agrigenòmica) ; Thannhauser, Theodore W. (Cornell University. Center for Agriculture and Health) ; Li, Li (Cornell University. Center for Agriculture and Health)
Phytoene synthase (PSY) is the crucial plastidial enzymein the carotenoid biosynthetic pathway. However, its post-translational regulation remains elusive. Likewise, Clp protease constitutes a central part of the plastid protease network, but its substrates for degradation are not well known. [...]
2018 - 10.1016/j.molp.2017.11.003
Molecular plant, Vol. 11, Issue 1 (January 2018) , p. 149-162  
4.
34 p, 5.5 MB Type III secretion–dependent and –independent phenotypes caused by Ralstonia solanacearum in Arabidopsis Roots / Lu, Haibin (Centre de Recerca en Agrigenòmica) ; Lema, Saul (Centre de Recerca en Agrigenòmica) ; Planas Marquès, Marc (Centre de Recerca en Agrigenòmica) ; Alonso-Díaz, Alejandro (Centre de Recerca en Agrigenòmica) ; Valls, Marc (Centre de Recerca en Agrigenòmica) ; Coll, Núria (Centre de Recerca en Agrigenòmica)
The causal agent of bacterial wilt, Ralstonia solanacearum, is a soilborne pathogen that invades plants through their roots, traversing many tissue layers until it reaches the xylem, where it multiplies and causes plant collapse. [...]
2018 - 10.1094/MPMI-05-17-0109-FI
Molecular plant-microbe interactions, Vol. 31, no. 1 (Jan. 2018) , p. 175-184  
5.
54 p, 2.0 MB The HCPro from the Potyviridae family : an enviable multitasking Helper Component that every virus would like to have / Valli, Adrián A. (Centro Nacional de Biotecnología (Espanya)) ; Gallo, Araiz (Centro Nacional de Biotecnología (Espanya)) ; Rodamilans, Bernardo (Centro Nacional de Biotecnología (Espanya)) ; López-Moya, Juan José (Centre de Recerca en Agrigenòmica) ; García, Juan Antonio (Centro Nacional de Biotecnología (Espanya))
RNA viruses have very compact genomes and so provide a unique opportunity to study how evolution works to optimize the use of very limited genomic information. A widespread viral strategy to solve this issue concerning the coding space relies on the expression of proteins with multiple functions. [...]
2018 - 10.1111/mpp.12553
Molecular plant pathology, Vol. 19, issue3 (March 2018) , p. 744-763  
6.
32 p, 2.4 MB SUMOylation inhibition mediated by disruption of SUMO E1-E2 interactions confers plant susceptibility to necrotrophic fungal pathogens / Castaño-Miquel, Laura (Centre de Recerca en Agrigenòmica) ; Mas, Abraham (Centre de Recerca en Agrigenòmica) ; Teixeira, Inês (Centre de Recerca en Agrigenòmica) ; Seguí,Josep (Centre de Recerca en Agrigenòmica) ; Perearnau, Anna (Centre de Recerca en Agrigenòmica) ; Thampi, Bhagyasree N. (Centre de Recerca en Agrigenòmica) ; Schapire, Arnaldo L. (Centre de Recerca en Agrigenòmica) ; Rodrigo, Natalia (Centre de Recerca en Agrigenòmica) ; La Verde, Gaelle (Centre de Recerca en Agrigenòmica) ; Manrique, Silvia (Centre de Recerca en Agrigenòmica) ; Coca López, María (Centre de Recerca en Agrigenòmica) ; Lois, L. Maria (Centre de Recerca en Agrigenòmica)
Protein modification by SUMO modulates essential biological processes in eukaryotes. SUMOylation is facilitated by sequential action of the E1-activating, E2-conjugating, and E3-ligase enzymes. In plants, SUMO regulates plant development and stress responses, which are key determinants in agricultural productivity. [...]
2017 - 10.1016/j.molp.2017.01.007
Molecular plant, Vol. 10 (May 2017) , p. 709-720  

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