Search Results - "HERMOSO, Juan"

Refine Results
  1. 1

    Grid Voltage Synchronization for Distributed Generation Systems Under Grid Fault Conditions by Luna, Alvaro, Rocabert, Joan, Candela, J. Ignacio, Hermoso, Juan Ramon, Teodorescu, Remus, Blaabjerg, Frede, Rodriguez, Pedro

    Published in IEEE transactions on industry applications (01-07-2015)
    “…The actual grid code requirements for the grid connection of distributed generation systems, mainly wind and photovoltaic (PV) systems, are becoming very…”
    Get full text
    Journal Article Publication
  2. 2

    Penicillin‐binding protein 2a of methicillin‐resistant Staphylococcus aureus by Fishovitz, Jennifer, Hermoso, Juan A., Chang, Mayland, Mobashery, Shahriar

    Published in IUBMB life (01-08-2014)
    “…High‐level resistance to β‐lactam antibiotics in methicillin‐resistant Staphylococcus aureus (MRSA) is due to expression of penicillin‐binding protein 2a…”
    Get full text
    Journal Article
  3. 3

    Teaching an old dog new tricks: repurposing β-lactams by Miguel-Ruano, Vega, Hermoso, Juan A.

    “…Recently, Martelli and colleagues reported on the structural and functional characterization of new antimycobacterials based on N-thio-β-lactams. Surprisingly,…”
    Get full text
    Journal Article
  4. 4

    Unconventional Antibacterials and Adjuvants by Chang, Mayland, Mahasenan, Kiran V, Hermoso, Juan A, Mobashery, Shahriar

    Published in Accounts of chemical research (16-02-2021)
    “…Conspectus The need for new classes of antibacterials is genuine in light of the dearth of clinical options for the treatment of bacterial infections. The…”
    Get full text
    Journal Article
  5. 5

    Carbohydrate recognition and lysis by bacterial peptidoglycan hydrolases by Alcorlo, Martín, Martínez-Caballero, Siseth, Molina, Rafael, Hermoso, Juan A

    Published in Current opinion in structural biology (01-06-2017)
    “…[Display omitted] •Recent results on the structural biology of PG hydrolases reviewed.•Structural features of PG recognition and regulation in amidases and LTs…”
    Get full text
    Journal Article
  6. 6

    Regulation of the cell division hydrolase RipC by the FtsEX system in Mycobacterium tuberculosis by Li, Jianwei, Xu, Xin, Shi, Jian, Hermoso, Juan A., Sham, Lok-To, Luo, Min

    Published in Nature communications (04-12-2023)
    “…The FtsEX complex regulates, directly or via a protein mediator depending on bacterial genera, peptidoglycan degradation for cell division. In mycobacteria and…”
    Get full text
    Journal Article
  7. 7

    Flexible structural arrangement and DNA-binding properties of protein p6 from Bacillus subtillis phage φ29 by Alcorlo, Martín, Luque-Ortega, Juan Román, Gago, Federico, Ortega, Alvaro, Castellanos, Milagros, Chacón, Pablo, de Vega, Miguel, Blanco, Luis, Hermoso, José M, Serrano, Manuel, Rivas, Germán, Hermoso, Juan A

    Published in Nucleic acids research (28-02-2024)
    “…Abstract The genome-organizing protein p6 of Bacillus subtilis bacteriophage φ29 plays an essential role in viral development by activating the initiation of…”
    Get full text
    Journal Article
  8. 8
  9. 9

    Modulation of the lytic apparatus by the FtsEX complex within the bacterial division machinery by Alcorlo, Martín, Martínez-Caballero, Siseth, Li, Jianwei, Sham, Lok-To, Luo, Min, Hermoso, Juan A

    Published in FEBS letters (07-06-2024)
    “…The FtsEX membrane complex constitutes an essential component of the ABC transporter superfamily, widely distributed among bacterial species. It governs…”
    Get full text
    Journal Article
  10. 10
  11. 11

    Mechanistic insights into the regulation of cell wall hydrolysis by FtsEX and EnvC at the bacterial division site by Xu, Xin, Li, Jianwei, Chua, Wan-Zhen, Pages, Martin A, Shi, Jian, Hermoso, Juan A, Bernhardt, Thomas, Sham, Lok-To, Luo, Min

    “…The peptidoglycan (PG) cell wall produced by the bacterial division machinery is initially shared between the daughters and must be split to promote cell…”
    Get full text
    Journal Article
  12. 12

    A distinctive family of L,D-transpeptidases catalyzing L-Ala-mDAP crosslinks in Alpha- and Betaproteobacteria by Espaillat, Akbar, Alvarez, Laura, Torrens, Gabriel, ter Beek, Josy, Miguel-Ruano, Vega, Irazoki, Oihane, Gago, Federico, Hermoso, Juan A., Berntsson, Ronnie P-A., Cava, Felipe

    Published in Nature communications (13-02-2024)
    “…The bacterial cell-wall peptidoglycan is made of glycan strands crosslinked by short peptide stems. Crosslinks are catalyzed by DD-transpeptidases…”
    Get full text
    Journal Article
  13. 13
  14. 14
  15. 15
  16. 16
  17. 17

    The Allosteric Site for the Nascent Cell Wall in Penicillin-Binding Protein 2a: An Achilles' Heel of Methicillin-Resistant Staphylococcus aureus by Acebrón, Iván, Chang, Mayland, Mobashery, Shahriar, Hermoso, Juan A

    Published in Current medicinal chemistry (01-01-2015)
    “…The ability to resist the effect of a wide range of antibiotics makes methicillin-resistant Staphylococcus aureus (MRSA) a leading global human pathogen. A key…”
    Get more information
    Journal Article
  18. 18

    Effect of Hopper Loading on the Formation of Alkyl Alcohols in Olive Fruits and Its Relationship with Sensory Quality Losses of Virgin Olive Oil by Boudebouz, Abdelaziz, Romero, Agustí, Hermoso, Juan-F, Boqué, Ricard, Mestres, Montserrat

    Published in Foods (07-07-2023)
    “…The storage of olives in large hoppers is a widespread practice in oil mills, but these large volumes and their unloading can cause a physical deterioration of…”
    Get full text
    Journal Article
  19. 19

    Comparing lettuce and cucumber production using hydroponics and aquaponic (tilapia) systems by Estrada-Perez, Nallely, Zavala-Leal, Iram, Gonzalez-Hermoso, Juan P, Ruiz-Velazco, Javier M.J

    Published in Latin american journal of aquatic research (01-07-2024)
    “…Aquaponics is the cultivation technique that integrates aquaculture with hydroponics. The present work compared two plant production cycles of a hydroponic…”
    Get full text
    Journal Article
  20. 20