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Functional analysis of the cyclophilin PpiB role in bacterial cell division.
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- Genes to Cells, 2017, v. 22, n. 9, p. 810, doi. 10.1111/gtc.12514
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- Article
Structural and functional analysis of cyclophilin PpiB mutants supports an in vivo function not limited to prolyl isomerization activity.
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- Genes to Cells, 2017, v. 22, n. 1, p. 32, doi. 10.1111/gtc.12452
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- Article
Cyclophilin PpiB is involved in motility and biofilm formation via its functional association with certain proteins.
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- Genes to Cells, 2016, v. 21, n. 8, p. 833, doi. 10.1111/gtc.12383
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Biochemical characterization of two Azotobacter vinelandii FKBPs and analysis of their interaction with the small subunit of carbamoyl phosphate synthetase.
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- Molecular Biology Reports, 2012, v. 39, n. 12, p. 10003, doi. 10.1007/s11033-012-1869-4
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- Article
The cytoplasmic cyclophilin from Azotobacter vinelandii interacts with phosphate acetyltransferase isoforms enhancing their in vitro activity.
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- Molecular Biology Reports, 2012, v. 39, n. 4, p. 4135, doi. 10.1007/s11033-011-1196-1
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- Article
Cloning, characterization and transcriptional analysis of two phosphate acetyltransferase isoforms from Azotobacter vinelandii.
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- Molecular Biology Reports, 2011, v. 38, n. 6, p. 3653, doi. 10.1007/s11033-010-0478-3
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- Article
Molecular and biochemical analysis of the α class carbonic anhydrases in Caenorhabditis elegans.
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- Molecular Biology Reports, 2011, v. 38, n. 3, p. 1777, doi. 10.1007/s11033-010-0292-y
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Molecular and biochemical analysis of the β class carbonic anhydrases in Caenorhabditis elegans.
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- Molecular Biology Reports, 2010, v. 37, n. 6, p. 2941, doi. 10.1007/s11033-009-9857-z
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- Article
Genomic Analysis and Secondary Metabolites Production of the Endophytic Bacillus velezensis Bvel1: A Biocontrol Agent against Botrytis cinerea Causing Bunch Rot in Post-Harvest Table Grapes.
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- Plants (2223-7747), 2021, v. 10, n. 8, p. 1716, doi. 10.3390/plants10081716
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Sheep and goats differences in CLA and fatty acids milk fat content in relation with mRNA stearoyl-CoA desaturase and lipogenic genes expression in their mammary gland.
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- Journal of Dairy Research, 2009, v. 76, n. 4, p. 392, doi. 10.1017/S0022029909990100
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- Article
Compatible Consortium of Endophytic Bacillus halotolerans Strains Cal.l.30 and Cal.f.4 Promotes Plant Growth and Induces Systemic Resistance against Botrytis cinerea.
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- Biology (2079-7737), 2023, v. 12, n. 6, p. 779, doi. 10.3390/biology12060779
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Calendula officinalis —A Great Source of Plant Growth Promoting Endophytic Bacteria (PGPEB) and Biological Control Agents (BCA).
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- Microorganisms, 2023, v. 11, n. 1, p. 206, doi. 10.3390/microorganisms11010206
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Integrated Genomic and Metabolomic Analysis Illuminates Key Secreted Metabolites Produced by the Novel Endophyte Bacillus halotolerans Cal.l.30 Involved in Diverse Biological Control Activities.
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- Microorganisms, 2022, v. 10, n. 2, p. N.PAG, doi. 10.3390/microorganisms10020399
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Genomic and Metabolomic Insights into Secondary Metabolites of the Novel Bacillus halotolerans Hil4, an Endophyte with Promising Antagonistic Activity against Gray Mold and Plant Growth Promoting Potential.
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- Microorganisms, 2021, v. 9, n. 12, p. 1, doi. 10.3390/microorganisms9122508
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Multi-Trait Wheat Rhizobacteria from Calcareous Soil with Biocontrol Activity Promote Plant Growth and Mitigate Salinity Stress.
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- Microorganisms, 2021, v. 9, n. 8, p. 1588, doi. 10.3390/microorganisms9081588
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- Article
Arbuscular mycorrhizal symbiosis alters the expression patterns of three key iron homeostasis genes, ZmNAS1, ZmNAS3, and ZmYS1, in S deprived maize plants.
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- Frontiers in Plant Science, 2015, p. 1, doi. 10.3389/fpls.2015.00257
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- Article
A cytosolic invertase is required for normal growth and cell development in the model legume, Lotus japonicus.
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- Journal of Experimental Botany, 2009, v. 60, n. 12, p. 3353, doi. 10.1093/jxb/erp169
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A root- and hypocotyl-specific gene coding for copper-containing amine oxidase is related to cell expansion in soybean seedlings.
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- Journal of Experimental Botany, 2006, v. 57, n. 1, p. 101, doi. 10.1093/jxb/erj009
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A sucrose transporter, LjSUT4, is up‐regulated during Lotus japonicus nodule development*.
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- Journal of Experimental Botany, 2003, v. 54, n. 388, p. 1789, doi. 10.1093/jxb/erg179
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Characterization of the soybean gene GmENOD40-2.
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- Journal of Experimental Botany, 1995, v. 46, n. 6, p. 719
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- Article
The Nitrogen-Fixation Island Insertion Site Is Conserved in Diazotrophic Pseudomonas stutzeri and Pseudomonas sp. Isolated from Distal and Close Geographical Regions.
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- PLoS ONE, 2014, v. 9, n. 9, p. 1, doi. 10.1371/journal.pone.0105837
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- Article
The Genetic Diversity of Culturable Nitrogen-Fixing Bacteria in the Rhizosphere of Wheat.
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- Microbial Ecology, 2011, v. 61, n. 2, p. 277, doi. 10.1007/s00248-010-9747-x
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Characterization of nitrogen-fixing bacteria isolated from field-grown barley, oat, and wheat.
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- Journal of Microbiology, 2011, v. 49, n. 4, p. 525, doi. 10.1007/s12275-011-0457-y
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- Article
Transcriptional and biochemical characterization of two Azotobacter vinelandii FKBP family members.
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- Journal of Microbiology, 2011, v. 49, n. 4, p. 635, doi. 10.1007/s12275-011-0498-2
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- Article
Impact of Elemental Sulfur on the Rhizospheric Bacteria of Durum Wheat Crop Cultivated on a Calcareous Soil.
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- Plants (2223-7747), 2019, v. 8, n. 10, p. 379, doi. 10.3390/plants8100379
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- Article
Characterization of GmENOD40, a gene showing novel patterns of cell-specific expression during soybean nodule development.
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- Plant Journal, 1993, v. 3, n. 4, p. 573
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- Article
In-situ localization of chalcone synthase mRNA in pea root nodule development.
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- Plant Journal, 1992, v. 2, n. 2, p. 143, doi. 10.1111/j.1365-313X.1992.00143.x
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- Article
Co-localization of Carbonic Anhydrase and Phosphoenolpyruvate Carboxylase and Localization of Pyruvate Kinase in Roots and Hypocotyls of Etiolated Glycine max Seedlings.
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- International Journal of Molecular Sciences, 2009, v. 10, n. 7, p. 2896, doi. 10.3390/ijms10072896
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Co-expression of two sugar transporters in primary and lateral roots of etiolated Glycine max seedlings*.
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- Plant Growth Regulation, 2005, v. 45, n. 3, p. 259, doi. 10.1007/s10725-005-5100-7
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- Article
Cessation of photosynthesis in Lotus japonicus leaves leads to reprogramming of nodule metabolism.
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- Journal of Experimental Botany, 2013, v. 64, n. 5, p. 1317, doi. 10.1093/jxb/ert015
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- Article
Nodulation enhances dark CO2 fixation and recycling in the model legume Lotus japonicus.
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- Journal of Experimental Botany, 2011, v. 62, n. 8, p. 2959, doi. 10.1093/jxb/err009
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Tissue-specific down-regulation of LjAMT1;1 compromises nodule function and enhances nodulation in Lotus japonicus.
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- Plant Molecular Biology, 2008, v. 68, n. 6, p. 585, doi. 10.1007/s11103-008-9394-5
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- Article