Search

Your search keyword '"Fonseca-García, Citlali"' showing total 25 results
Start Over Author "Fonseca-García, Citlali"
25 results on '"Fonseca-García, Citlali"'

1. Phylogenetic distribution and experimental characterization of corrinoid production and dependence in soil bacterial isolates

Author

Alvarez-Aponte, Zoila I, Govindaraju, Alekhya M, Hallberg, Zachary F, Nicolas, Alexa M, Green, Myka A, Mok, Kenny C, Fonseca-García, Citlali, Coleman-Derr, Devin, Brodie, Eoin L, Carlson, Hans K, and Taga, Michiko E

Subjects
Microbiology, Biological Sciences, Ecology, Microbiome, Nutrition, Life on Land, Soil Microbiology, Phylogeny, Bacteria, Corrinoids, Microbiota, Soil, Vitamin B 12, RNA, Ribosomal, 16S, soil microbiome, bacteria, isolation, vitamin B12, corrinoid, cobamide, genomic predictions, metabolic interactions, model nutrients, Environmental Sciences, Technology, Biological sciences, Environmental sciences
Abstract

Soil microbial communities impact carbon sequestration and release, biogeochemical cycling, and agricultural yields. These global effects rely on metabolic interactions that modulate community composition and function. However, the physicochemical and taxonomic complexity of soil and the scarcity of available isolates for phenotypic testing are significant barriers to studying soil microbial interactions. Corrinoids-the vitamin B12 family of cofactors-are critical for microbial metabolism, yet they are synthesized by only a subset of microbiome members. Here, we evaluated corrinoid production and dependence in soil bacteria as a model to investigate the ecological roles of microorganisms involved in metabolic interactions. We isolated and characterized a taxonomically diverse collection of 161 soil bacteria from a single study site. Most corrinoid-dependent bacteria in the collection prefer B12 over other corrinoids, while all tested producers synthesize B12, indicating metabolic compatibility between producers and dependents in the collection. Furthermore, a subset of producers release B12 at levels sufficient to support dependent isolates in laboratory culture at estimated ratios of up to 1000 dependents per producer. Within our isolate collection, we did not find strong phylogenetic patterns in corrinoid production or dependence. Upon investigating trends in the phylogenetic dispersion of corrinoid metabolism categories across sequenced bacteria from various environments, we found that these traits are conserved in 47 out of 85 genera. Together, these phenotypic and genomic results provide evidence for corrinoid-based metabolic interactions among bacteria and provide a framework for the study of nutrient-sharing ecological interactions in microbial communities.

Published
2024

2. Functional Signatures of the Epiphytic Prokaryotic Microbiome of Agaves and Cacti

Author

Flores-Núñez, Víctor M, Fonseca-García, Citlali, Desgarennes, Damaris, Eloe-Fadrosh, Emiley, Woyke, Tanja, and Partida-Martínez, Laila P

Subjects
Microbiology, Biological Sciences, Ecology, Zero Hunger, arid and semiarid environments, metagenomics, phyllosphere, rhizosphere, soil, CAM plants, phototrophy, Environmental Science and Management, Soil Sciences, Medical microbiology
Abstract

Microbial symbionts account for survival, development, fitness and evolution of eukaryotic hosts. These microorganisms together with their host form a biological unit known as holobiont. Recent studies have revealed that the holobiont of agaves and cacti comprises a diverse and structured microbiome, which might be important for its adaptation to drylands. Here, we investigated the functional signatures of the prokaryotic communities of the soil and the episphere, that includes the rhizosphere and phyllosphere, associated with the cultivated Agave tequilana and the native and sympatric Agave salmiana, Opuntia robusta and Myrtillocactus geometrizans by mining shotgun metagenomic data. Consistent with previous phylogenetic profiling, we found that Proteobacteria, Actinobacteria and Firmicutes were the main represented phyla in the episphere of agaves and cacti, and that clustering of metagenomes correlated with the plant compartment. In native plants, genes related to aerobic anoxygenic phototrophy and photosynthesis were enriched in the phyllosphere and soil, while genes coding for biofilm formation and quorum sensing were enriched in both epiphytic communities. In the episphere of cultivated A. tequilana fewer genes were identified, but they belonged to similar pathways than those found in native plants. A. tequilana showed a depletion in several genes belonging to carbon metabolism, secondary metabolite biosynthesis and xenobiotic degradation suggesting that its lower microbial diversity might be linked to functional losses. However, this species also showed an enrichment in biofilm and quorum sensing in the epiphytic compartments, and evidence for nitrogen fixation in the rhizosphere. Aerobic anoxygenic phototrophic markers were represented by Rhizobiales (Methylobacterium) and Rhodospirillales (Belnapia) in the phyllosphere, while photosystem genes were widespread in Bacillales and Cyanobacteria. Nitrogen fixation and biofilm formation genes were mostly related to Proteobacteria. These analyses support the idea of niche differentiation in the rhizosphere and phyllosphere of agaves and cacti and shed light on the potential mechanisms by which epiphytic microbial communities survive and colonize plants of arid and semiarid ecosystems. This study establishes a guideline for testing the relevance of the identified functional traits on the microbial community and the plant fitness.

Published
2020

3. Functional Signatures of the Epiphytic Prokaryotic Microbiome of Agaves and Cacti.

Author

Flores-Núñez, Víctor M, Fonseca-García, Citlali, Desgarennes, Damaris, Eloe-Fadrosh, Emiley, Woyke, Tanja, and Partida-Martínez, Laila P

Subjects
CAM plants, arid and semiarid environments, metagenomics, phototrophy, phyllosphere, rhizosphere, soil, Microbiology, Environmental Science and Management, Soil Sciences
Abstract

Microbial symbionts account for survival, development, fitness and evolution of eukaryotic hosts. These microorganisms together with their host form a biological unit known as holobiont. Recent studies have revealed that the holobiont of agaves and cacti comprises a diverse and structured microbiome, which might be important for its adaptation to drylands. Here, we investigated the functional signatures of the prokaryotic communities of the soil and the episphere, that includes the rhizosphere and phyllosphere, associated with the cultivated Agave tequilana and the native and sympatric Agave salmiana, Opuntia robusta and Myrtillocactus geometrizans by mining shotgun metagenomic data. Consistent with previous phylogenetic profiling, we found that Proteobacteria, Actinobacteria and Firmicutes were the main represented phyla in the episphere of agaves and cacti, and that clustering of metagenomes correlated with the plant compartment. In native plants, genes related to aerobic anoxygenic phototrophy and photosynthesis were enriched in the phyllosphere and soil, while genes coding for biofilm formation and quorum sensing were enriched in both epiphytic communities. In the episphere of cultivated A. tequilana fewer genes were identified, but they belonged to similar pathways than those found in native plants. A. tequilana showed a depletion in several genes belonging to carbon metabolism, secondary metabolite biosynthesis and xenobiotic degradation suggesting that its lower microbial diversity might be linked to functional losses. However, this species also showed an enrichment in biofilm and quorum sensing in the epiphytic compartments, and evidence for nitrogen fixation in the rhizosphere. Aerobic anoxygenic phototrophic markers were represented by Rhizobiales (Methylobacterium) and Rhodospirillales (Belnapia) in the phyllosphere, while photosystem genes were widespread in Bacillales and Cyanobacteria. Nitrogen fixation and biofilm formation genes were mostly related to Proteobacteria. These analyses support the idea of niche differentiation in the rhizosphere and phyllosphere of agaves and cacti and shed light on the potential mechanisms by which epiphytic microbial communities survive and colonize plants of arid and semiarid ecosystems. This study establishes a guideline for testing the relevance of the identified functional traits on the microbial community and the plant fitness.

Published
2019

4. Phylogenetic distribution and experimental characterization of corrinoid production and dependence in soil bacterial isolates.

Author

Alvarez-Aponte, Zoila, Alvarez-Aponte, Zoila, Govindaraju, Alekhya, Hallberg, Zachary, Nicolas, Alexa, Green, Myka, Mok, Kenny, Fonseca-García, Citlali, Coleman-Derr, Devin, Brodie, Eoin, Carlson, Hans, Taga, Michiko, Alvarez-Aponte, Zoila, Alvarez-Aponte, Zoila, Govindaraju, Alekhya, Hallberg, Zachary, Nicolas, Alexa, Green, Myka, Mok, Kenny, Fonseca-García, Citlali, Coleman-Derr, Devin, Brodie, Eoin, Carlson, Hans, and Taga, Michiko

Abstract

Soil microbial communities impact carbon sequestration and release, biogeochemical cycling, and agricultural yields. These global effects rely on metabolic interactions that modulate community composition and function. However, the physicochemical and taxonomic complexity of soil and the scarcity of available isolates for phenotypic testing are significant barriers to studying soil microbial interactions. Corrinoids-the vitamin B12 family of cofactors-are critical for microbial metabolism, yet they are synthesized by only a subset of microbiome members. Here, we evaluated corrinoid production and dependence in soil bacteria as a model to investigate the ecological roles of microorganisms involved in metabolic interactions. We isolated and characterized a taxonomically diverse collection of 161 soil bacteria from a single study site. Most corrinoid-dependent bacteria in the collection prefer B12 over other corrinoids, while all tested producers synthesize B12, indicating metabolic compatibility between producers and dependents in the collection. Furthermore, a subset of producers release B12 at levels sufficient to support dependent isolates in laboratory culture at estimated ratios of up to 1000 dependents per producer. Within our isolate collection, we did not find strong phylogenetic patterns in corrinoid production or dependence. Upon investigating trends in the phylogenetic dispersion of corrinoid metabolism categories across sequenced bacteria from various environments, we found that these traits are conserved in 47 out of 85 genera. Together, these phenotypic and genomic results provide evidence for corrinoid-based metabolic interactions among bacteria and provide a framework for the study of nutrient-sharing ecological interactions in microbial communities.

Published
2024

5. The Cacti Microbiome: Interplay between Habitat-Filtering and Host-Specificity

Author

Fonseca-García, Citlali, Coleman-Derr, Devin, Garrido, Etzel, Visel, Axel, Tringe, Susannah G, and Partida-Martínez, Laila P

Subjects
Microbiology, Biological Sciences, Ecology, Stem Cell Research, arid and semi-arid ecosystems, Cactaceae, CAM plants, holobiont, Illumina amplicon sequencing, microbial diversity, microbiomes, plant-microbe interactions, Environmental Science and Management, Soil Sciences, Medical microbiology
Abstract

Cactaceae represents one of the most species-rich families of succulent plants native to arid and semi-arid ecosystems, yet the associations Cacti establish with microorganisms and the rules governing microbial community assembly remain poorly understood. We analyzed the composition, diversity, and factors influencing above- and below-ground bacterial, archaeal, and fungal communities associated with two native and sympatric Cacti species: Myrtillocactus geometrizans and Opuntia robusta. Phylogenetic profiling showed that the composition and assembly of microbial communities associated with Cacti were primarily influenced by the plant compartment; plant species, site, and season played only a minor role. Remarkably, bacterial, and archaeal diversity was higher in the phyllosphere than in the rhizosphere of Cacti, while the opposite was true for fungi. Semi-arid soils exhibited the highest levels of microbial diversity whereas the stem endosphere the lowest. Despite their taxonomic distance, M. geometrizans and O. robusta shared most microbial taxa in all analyzed compartments. Influence of the plant host did only play a larger role in the fungal communities of the stem endosphere. These results suggest that fungi establish specific interactions with their host plant inside the stem, whereas microbial communities in the other plant compartments may play similar functional roles in these two species. Biochemical and molecular characterization of seed-borne bacteria of Cacti supports the idea that these microbial symbionts may be vertically inherited and could promote plant growth and drought tolerance for the fitness of the Cacti holobiont. We envision this knowledge will help improve and sustain agriculture in arid and semi-arid regions of the world.

Published
2016

9. Contributors

Author

Abdulla, Mohamed Hatha, Abramova, Anna, Akanmu, Akinlolu Olalekan, Ammini, Parvathi, Arockiaraj, Jesu, Arul Shiny, Mariadhason, Asha, Santhi, Ayangbenro, Ayansina Segun, Babalola, Olubukola Oluranti, Bacci, Giovanni, Bargiela, Rafael, Barik, Shubham, Becerra, Manuel, Bedse, Mandar, Bengtsson-Palme, Johan, Bhardwaj, Soumya, Bhavana, Karippadakam, Bombaywala, Sakina, Boulund, Fredrik, Casbarra, Lorenzo, Dafale, Nishant A., De, Rituparna, DeCastro, María-Eugenia, Deepthi, Mottakunja, Deo, Priya Nimish, Desgarennes, Damaris, Dhotre, Dhiraj Prakash, Escuder-Rodríguez, Juan-José, Fadiji, Ayomide Emmanuel, Ferrer, Manuel, Flores-Núñez, Víctor M., Fonseca-García, Citlali, González-Siso, María-Isabel, Gopinath, Devi, Grace, Tony, Guru, Ajay, Hassan, Saqib, Iyyadurai, Mariappan, Jairath, Gauri, Jonsson, Viktor, Jose, Mareena, Kadnikov, Vitaly V., Kamalakkannan, Ranganathan, Kannoth, Shalini, Karamveer, Karamveer, Karmarkar, Bhagyashree, Krishnaveni, Muthan, Kristiansson, Erik, Kumar, Anupam, Ma, Zhanshan (Sam), Mal, Gorakh, Malla, Muneer Ahmad, Mardanov, Andrey V., Martínez-Martínez, Mónica, Marunganathan, Vanitha, Meenatchi, Ramu, Méndez-García, Celia, Merlin Sobia, Poomani, Mohan, Suma, Nagarajan, Muniyandi, Nandi, Amartya, Nathan, Vinod Kumar, Partida-Martínez, Laila P., Pereira, Mariana Buongermino, Prabhu, Devachandana C., Prabhu, Vandana R., Prathiviraj, Ragothaman, Priya, P. Snega, Ramazzotti, Matteo, Rathika, Regurajan, Ravin, Nikolai V., Rialch, Ajayta, Rodríguez-Belmonte, Esther, Sadanandan, Shemmy, Sharma, Rinku, Singh, Birbal, Singh, Goldy, Singh, Kiran, Solanki, Jaykishan, Suravajhala, Prashanth, Suresh, Aparna, Tiwari, Arushi, Venkatesh, Subramanian, Vijayan, Jasna, and Yadav, Shweta

Published
2025
Full Text
View/download PDF

12. Additional file 1 of An NADPH oxidase regulates carbon metabolism and the cell cycle during root nodule symbiosis in common bean (Phaseolus vulgaris)

Author

Fonseca-García, Citlali, Nava, Noreide, Lara, Miguel, and Quinto, Carmen

Abstract

Additional file 1: Figure S1. Expression profiles of genes related to the isoflavonoid biosynthesis pathway in legumes. DEGs encoding proteins related to isoflavonoid biosynthesis in control and PvRbohB-RNAiP. vulgaris roots at 7 dpi with R. tropici, together with their orthologous genes from wild-type L. japonicus roots inoculated with M. loti at 7, as well as M. truncatula nodules at 6 dpi with S. meliloti. The color bars represent the log2(fold change), with red representing upregulated genes and blue representing downregulated genes. A cut-off threshold of log2FC ≥ 1.5, Padj/FDR ≤ 0.05 was used. Figure S2. DEGs related to fixed ammonia assimilation and transmembrane transporters in nodules. The heatmap shows the DEGs from control and PvRbohB-RNAi P. vulgarisroots at 7 dpi with R. tropici, together with their orthologous genes from wild-typeL. japonicus roots inoculated with M. loti at 7 dpi, as well as M. truncatula nodules at 6 dpi with S. meliloti. The color bars represent the log2(fold change), with red representing upregulated genes and blue representing downregulated genes. A cut-off threshold of log2FC ≥ 1.5, Padj/FDR ≤ 0.05 was used. Figure S3. Heatmap of the expression patterns of genes related to ureide biosynthesis. DEGs encoding proteins related to ureide metabolism in control and PvRbohB-RNAi P. vulgaris roots at 7 dpi with rhizobia. Their respective orthologous genes from wild-type, L. japonicus roots inoculated with M. loti at 7dpi were included in the analysis, along with M. truncatula nodules at 6 dpi with S. meliloti. The color bars represent the log2(fold change), with red representing upregulated genes and blue representing downregulated genes. A cut-off threshold of log2FC ≥ 1.5, Padj/FDR ≤ 0.05 was used. Figure S4. DEGs related to the oxidative and non-oxidative phases of the Pentose Phosphate Pathway (PPP). Data were analyzed in control and PvRbohB-RNAi P. vulgaris roots at 7 dpi with rhizobia. Their respective orthologous genes from wild-type L. japonicus roots inoculated with M. loti at 7 dpi were included in the analysis, along with M. truncatula nodules at 6 dpi with S. meliloti. The color bars represent the log2(fold change), with red representing upregulated genes and blue representing downregulated genes. A cut-off threshold of log2FC ≥ 1.5, Padj/FDR ≤ 0.05 was used. Figure S5. Expression profiles of genes related to sucrose catabolism to provide carbon skeletons to nodules. DEGs related to sucrose catabolism in control and PvRbohB-RNAi P. vulgaris roots at 7 dpi with rhizobia; their orthologous genes from wild-typeL. japonicus roots inoculated with M. loti at 7were including in the analysis, along with M. truncatula nodules at 6 dpi with S. meliloti. The color bars represent the log2(fold change), with red representing upregulated genes and blue representing downregulated genes. A cut-off threshold of log2FC ≥ 1.5, Padj/FDR ≤ 0.05 was used. Figure S6. DEGs involved in regulating the cell cycle in control and PvRbohB-RNAi P. vulgaris roots. Their respective orthologous genes from wild-type roots of L. japonicus inoculated with M. loti at 7 dpi were included in the analysis, along with M. truncatula nodules at 6 dpi with S. meliloti The color bars represent the log2(fold change) of the DEG, with red and blue representing upregulated and downregulated genes, respectively. A cut-off threshold of log2FC ≥ 1.5, Padj/FDR ≤ 0.05 was used.

Published
2021
Full Text
View/download PDF

18. MOESM11 of Transcriptome analysis of the differential effect of the NADPH oxidase gene RbohB in Phaseolus vulgaris roots following Rhizobium tropici and Rhizophagus irregularis inoculation

Author

Fonseca-García, Citlali, Zayas, Alejandra, Montiel, Jesús, Noreide Nava, Sánchez, Federico, and Quinto, Carmen

Subjects
fungi, natural sciences
Abstract

Additional file 11: Figure S8. KEGG pathway map of plant hormone signal transduction for upregulated genes in mycorrhized control roots.

Published
2019
Full Text
View/download PDF

19. Contributors

Author

Santhi Asha, Giovanni Bacci, Rafael Bargiela, Manuel Becerra, Johan Bengtsson-Palme, Mélanie Beraud, Fredrik Boulund, Chia Sing Chan, Kok-Gan Chan, Fonseca-García Citlali, Bharti P. Dave, María-Eugenia DeCastro, Damaris Desgarennes, Levinus A. Dieleman, Juan-José Escuder-Rodríguez, Manuel Ferrer, Víctor M. Flores-Núñez, James A. Foster, Kian Mau Goh, María-Isabel González-Siso, Haren B. Gosai, Timothy J. Griffin, Saman K. Halgamuge, Pratik D. Jagtap, Duleepa Jayasundara, Viktor Jonsson, Chaitanya G. Joshi, Juan Jovel, Vitaly V. Kadnikov, Ranganathan Kamalakkannan, Dina Kao, Nobutada Kimura, Ramesh K. Kothari, Muthan Krishnaveni, Erik Kristiansson, Kok Jun Liew, Chia Chiu Lim, Zhanshan (Sam) Ma, Andrey V. Mardanov, Mónica Martínez-Martínez, Stanislaus Mary Josephine Punitha, Andrew L. Mason, Sabine Matallana-Surget, Celia Méndez-García, Chandrashekar Mootapally, Muniyandi Nagarajan, Neelam M. Nathani, Laila P. Partida-Martínez, Mariana Buongermino Pereira, Vandana R. Prabhu, Matteo Ramazzotti, Jalpa K. Rank, Nikolai V. Ravin, Esther Rodríguez-Belmonte, Madihah Md Salleh, Rajesh Kumar Sani, Stephen Sharmin Vini, Sen-Lin Tang, Ruddy Wattiez, Kwek Yan Wei, Eytan Wine, and Ilya Y. Zhbannikov

Published
2018

20. The Microbiome of Desert CAM Plants: Lessons From Amplicon Sequencing and Metagenomics

Author

Fonseca-García Citlali, Víctor M. Flores-Núñez, Damaris Desgarennes, and Laila P. Partida-Martinez

Subjects
0106 biological sciences, 0301 basic medicine, Genetics, Rhizosphere, In silico, fungi, food and beverages, Biology, 01 natural sciences, 03 medical and health sciences, 030104 developmental biology, Metagenomics, Earth Microbiome Project, Botany, Crassulacean acid metabolism, Phylogenetic profiling, Microbiome, Phyllosphere, 010606 plant biology & botany
Abstract

Phylogenetic profiling and metagenomics of crassulacean acid metabolism (CAM) plants from North America have revealed diverse and structured microbial communities with core microbial taxa in each plant compartment. In silico functional analyses suggest that microorganisms in the rhizosphere and phyllosphere of CAM plants differentially benefit their host plants to succeed in drylands.

Published
2018

22. Nodosilinea chupicuarensis sp. nov. (Leptolyngbyaceae, Synechococcales) a subaerial cyanobacterium isolated from a stone monument in central Mexico

Author

VÁZQUEZ-MARTÍNEZ, JUAN, primary, GUTIERREZ-VILLAGOMEZ, JUAN MANUEL, additional, FONSECA-GARCÍA, CITLALI, additional, RAMÍREZ-CHÁVEZ, ENRIQUE, additional, MONDRAGÓN-SÁNCHEZ, MA. LOURDES, additional, PARTIDA-MARTÍNEZ, LAILA, additional, JOHANSEN, JEFFREY R., additional, and MOLINA-TORRES, JORGE, additional

Published
2018
Full Text
View/download PDF

23. Defined synthetic microbial communities colonize and benefit field-grown sorghum

Author

Fonseca-García, Citlali, Pettinga, Dean, Wilson, Andrew, Elmore, Joshua R, McClure, Ryan, Atim, Jackie, Pedraza, Julie, Hutmacher, Robert, Turumtay, Halbay, Tian, Yang, Eudes, Aymerick, Scheller, Henrik V, Egbert, Robert G, and Coleman-Derr, Devin

Abstract

The rhizosphere constitutes a dynamic interface between plant hosts and their associated microbial communities. Despite the acknowledged potential for enhancing plant fitness by manipulating the rhizosphere, the engineering of the rhizosphere microbiome through inoculation has posed significant challenges. These challenges are thought to arise from the competitive microbial ecosystem where introduced microbes must survive, and the absence of adaptation to the specific metabolic and environmental demands of the rhizosphere. Here, we engineered a synthetic rhizosphere community (SRC1) with the anticipation that it would exhibit a selective advantage in colonizing the host Sorghum bicolor, thereby potentially fostering its growth. SRC1 was assembled from bacterial isolates identified either for their potential role in community cohesion through network analysis or for their ability to benefit from host-specific exudate compounds. The growth performance of SRC1 was assessed in vitroon solid media, in plantaunder gnotobiotic laboratory conditions, and in the field. Our findings reveal that SRC1 cohesion is most robust when cultivated in the presence of the plant host under laboratory conditions, with lineages being lost from the community when grown either in vitroor in a native field setting. We establish that SRC1 effectively promotes the growth of both above- and below-ground plant phenotypes in both laboratory and native field contexts. Furthermore, in laboratory conditions, these growth enhancements correlate with the transcriptional dampening of lignin biosynthesis in the host. Collectively, these results underscore the potential utility of synthetic microbial communities for modulating crop performance in controlled and native environments alike.

Published
2024
Full Text
View/download PDF

25. The regulation of different metabolic pathways through the Pal/ Rim pathway in Ustilago maydis.

Author

Fonseca-García, Citlali, León-Ramírez, Claudia G., and Ruiz-Herrera, José

Subjects
*USTILAGO maydis, *FUNGAL metabolism, *PHENYLALANINE ammonia lyase, *TRANSCRIPTION factors, *HYDROGEN-ion concentration, *PHYTOPATHOGENIC fungi, *DUAL specificity phosphatase 1, *FUNGAL cell walls
Abstract

One of the most important physicochemical factors that affect cell growth and development is p H, and living organisms have developed specific mechanisms to adapt to media with variable p H values. Most fungi posses a specific mechanism for such adaptation: the Pal/ Rim pathway. To analyze the different metabolic processes regulated by this pathway, and its possible relationships with other physiological regulatory mechanisms, we analyzed the phenotype of a mutant in the PALB / RIM13 gene of the phytopathogenic fungus Ustilago maydis. The mutant displayed important alterations in the synthesis and organization of the cell wall and was affected in its response to stress, revealing its relationship with the MAPKC pathway involved in maintaining the integrity of the cell wall, and the stress response pathway, but not with the HOG pathway. An important observation was that the mutant, in contrast to the wild-type strain, was unable to maintain a constant intracellular p H, suggesting that probably the main function of the Pal/ Rim pathway, in collaboration with other regulatory mechanisms, is to maintain a constant intracellular p H, despite the changes occurring in the environment. [ABSTRACT FROM AUTHOR]

Published
2012
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results