Your search keyword '"Zafra O"' showing total 27 results

1. The Use of Posturography in Investigating the Risk of Falling in Frail or Prefrail Older People with Diabetes

Author

Domergue, Hélène, Rodríguez-Mañas, L., Laosa Zafra, O., Hood, K., Gasq, D., Regueme, S., Sinclair, A. J., and Bourdel-Marchasson, I.

Published

2020

2. The sarcopenia and physical frailty in older people: multi-component treatment strategies (SPRINTT) project: description and feasibility of a nutrition intervention in community-dwelling older Europeans

Author

Jyvakorpi S. K., Ramel A., Strandberg T. E., Piotrowicz K., Blaszczyk-Bebenek E., Urtamo A., Rempe H. M., Geirsdottir O., Vagnerova T., Billot M., Larreur A., Savera G., Soriano G., Picauron C., Tagliaferri S., Sanchez-Puelles C., Cadenas V. S., Perl A., Tirrel L., Ohman H., Weling-Scheepers C., Ambrosi S., Costantini A., Pavelkova K., Klimkova M., Freiberger E., Jonsson P. V., Marzetti E., Pitkala K. H., Landi F., Calvani R., Bernabei R., Boni C., Brandi V., Broccatelli M., Celesti C., Cicchetti A., Collamati A., Coretti S., D'Angelo E., D'Elia M., Landi G., Lorenzi M., Mariotti L., Martone A. M., Ortolani E., Pafundi T., Picca A., Ruggeri M., Salini S., Tosato M., Vetrano D. L., Lattanzio F., Baldoni R., Bernabei S., Bonfigli A. R., Bustacchini S., Carrieri B., Cassetta L., Cherubini A., Cucchi M., Cucchieri G., Costantini A. R., Dell'Aquila G., Espinosa E., Fedecostante M., Fraternali R., Galeazzi R., Mengarelli A., Piomboni S., Posacki E., Severini E., Tregambe T., Trotta F., Maggio M., Lauretani F., Butto V., Fisichella A., Guareschi C., Longobucco Y., Di Bari M., Rodriguez-Manas L., Alamo S., Bouzon C. A., Gonzales Turin J., Zafra O. L. L., Picazo A. L., Sepulveda L. P., SanchezSanchez J. L., Puelles C. S., Aragones M. V., CruzJentoft A. J., Santos J. A., Alvarez-Nebreda L., JimenezJimenez N. F., Nozal J. M. -D., Montero-Errasquin B., Moreno B. P. B. P., Roldan-Plaza C., Vicente A. R. -D., Sanchez-Cadenas V., Sanchez-Castellano C., Sanchez-Garcia E., Vaquero-Pinto M. N., Topinkova E., Bautzka L., Blechova K., Gueye T., Juklickova I., Klbikova T., Krenkova J. J., Madlova P., Mejstrikova H., Melcova R., Michalkova H., Ryznarova I., Drastichova I., Hasalikova E., Hucko R., Jakub S., Janacova M., Kilmkova M., Parizkova M., Redrova M., Ruskova P. P., Sieber C. C., Auerswald T., Engel C., Franke A., Freibergen E., Freiheit U., Gotthardt S., Kampe K., Kob R., Kokott C., Kraska C., Meyer C., Reith V., Rempe H., Schoene D., Sieber G., Zielinski K., Anker S. D., Ebner N., Grutz R., von Haehling S., Schols A. M. W. J., Gosker H., Huysmans S., Quaaden S., Schols J. M., Smeets N., Stevens P., van de Bool C., Weling C., Strandberg T., Jyvakorpi S., Hallikas K., Herranen M., Huusko T., Hytonen L., Ikonen K., Karppi-Sjoblom A., Karvinen K., Kayhty M., Kindsted T., Landstrom E., Leirimaa S., Pitkala K., Punkka A., Saavalainen A. -M., Salo T., Sepa M., Sohlberg K., Vaatamoinen E., Venalainen S., Vanhanen H., Vellas B., Van Kan G. A., Biville V., Brigitte L., Cervera C., Cesari M., Champarnaud M., Cluzan C., Croizet M., Dardenne S., Dorard M., Dupuy C., Durand E., Faisant C., Fougere B., Girard P., Guyonnet S., Hoogendijk E., Mauroux R., Milhet A., Montel S., Ousset P. -J., Teguo M. T., Teysseyre B., Andrieu S., Blasimme A., Dray C., Rial-Sebbag E., Valet P., Dantoine T., Cardinaud N., Castelli M., Charenton-Blavignac M., Ciccolari-Micaldi C., Gayot C., Laubarie-Mouriet C., Marchesseau D., Mergans T., Nguyen T. B., Papon A., Ribet J., Saulinier I., Tchalla A., Rapp T., Sirven N., Skalska A., Blaszcyk E., Cwynar M., Czesak J., Fatyga P., Fedyk-Lukasik M., Grodzicki T., Jamrozik P., Janusz Z., Klimek E., Komoniewska S., Kret M., Ozog M., Parnicka A., Petitjean K., Pietrzyk A., Skalska-Dulinska B., Starzyk D., Szczerbinska K., Witkiewicz B., Wlodarczyk A., Sinclair A., Harris S., Ogborne A., Ritchie S., Sinclair C., Sinclair H., Bellary S., Worthington H., Derejczyk J., Roller-Wirnsberger R., Jonsson P., Bordes P., Arnaud S., Asbrand C., Bejuit R., Durand S., Flechsenhar K., Joly F., Lain R. L., Moncharmont M., Msihid J., Ndja A., Riche B., Weber A. C., Yuan J., Roubenoff R., Kortebein P., Miller R. R., Gorostiaga C., Belissa-Mathiot P., Hu H., Laigle L., Melchor I. M., Russel A., Bennecky M., Haws T., Joshi A., Philpott K., Walker A., Zia G., Giorgi S. D., Feletti L., Marchioro E., Mocci F., Varesio M. G., Cesario A., Cabin B., de Boer W. P., Ignaszewski C., Klingmann I., Vollenbroek-Hutten M., Hermens T., Jansen-Kosterink S., Tabak M., Blandin P., Coutard L., Lenzotti A. -M., Mokhtari H., Rodon N., RS: MHeNs - R1 - Cognitive Neuropsychiatry and Clinical Neuroscience, RS: CAPHRI - R1 - Ageing and Long-Term Care, Health Services Research, Handicap, Activité, Vieillissement, Autonomie, Environnement (HAVAE), Institut Génomique, Environnement, Immunité, Santé, Thérapeutique (GEIST), Université de Limoges (UNILIM)-Université de Limoges (UNILIM), Clinicum, Department of General Practice and Primary Health Care, University of Helsinki, HUS Internal Medicine and Rehabilitation, Timo Strandberg / Principal Investigator, Department of Medicine, Helsinki University Hospital Area, Teachers' Academy, Jyvakorpi S.K., Ramel A., Strandberg T.E., Piotrowicz K., Blaszczyk-Bebenek E., Urtamo A., Rempe H.M., Geirsdottir O., Vagnerova T., Billot M., Larreur A., Savera G., Soriano G., Picauron C., Tagliaferri S., Sanchez-Puelles C., Cadenas V.S., Perl A., Tirrel L., Ohman H., Weling-Scheepers C., Ambrosi S., Costantini A., Pavelkova K., Klimkova M., Freiberger E., Jonsson P.V., Marzetti E., Pitkala K.H., Landi F., Calvani R., Bernabei R., Boni C., Brandi V., Broccatelli M., Celesti C., Cicchetti A., Collamati A., Coretti S., D'Angelo E., D'Elia M., Landi G., Lorenzi M., Mariotti L., Martone A.M., Ortolani E., Pafundi T., Picca A., Ruggeri M., Salini S., Tosato M., Vetrano D.L., Lattanzio F., Baldoni R., Bernabei S., Bonfigli A.R., Bustacchini S., Carrieri B., Cassetta L., Cherubini A., Cucchi M., Cucchieri G., Costantini A.R., Dell'Aquila G., Espinosa E., Fedecostante M., Fraternali R., Galeazzi R., Mengarelli A., Piomboni S., Posacki E., Severini E., Tregambe T., Trotta F., Maggio M., Lauretani F., Butto V., Fisichella A., Guareschi C., Longobucco Y., Di Bari M., Rodriguez-Manas L., Alamo S., Bouzon C.A., Gonzales Turin J., Zafra O.L.L., Picazo A.L., Sepulveda L.P., SanchezSanchez J.L., Puelles C.S., Aragones M.V., CruzJentoft A.J., Santos J.A., Alvarez-Nebreda L., JimenezJimenez N.F., Nozal J.M.-D., Montero-Errasquin B., Moreno B.P.B.P., Roldan-Plaza C., Vicente A.R.-D., Sanchez-Cadenas V., Sanchez-Castellano C., Sanchez-Garcia E., Vaquero-Pinto M.N., Topinkova E., Bautzka L., Blechova K., Gueye T., Juklickova I., Klbikova T., Krenkova J.J., Madlova P., Mejstrikova H., Melcova R., Michalkova H., Ryznarova I., Drastichova I., Hasalikova E., Hucko R., Jakub S., Janacova M., Kilmkova M., Parizkova M., Redrova M., Ruskova P.P., Sieber C.C., Auerswald T., Engel C., Franke A., Freibergen E., Freiheit U., Gotthardt S., Kampe K., Kob R., Kokott C., Kraska C., Meyer C., Reith V., Rempe H., Schoene D., Sieber G., Zielinski K., Anker S.D., Ebner N., Grutz R., von Haehling S., Schols A.M.W.J., Gosker H., Huysmans S., Quaaden S., Schols J.M., Smeets N., Stevens P., van de Bool C., Weling C., Strandberg T., Jyvakorpi S., Hallikas K., Herranen M., Huusko T., Hytonen L., Ikonen K., Karppi-Sjoblom A., Karvinen K., Kayhty M., Kindsted T., Landstrom E., Leirimaa S., Pitkala K., Punkka A., Saavalainen A.-M., Salo T., Sepa M., Sohlberg K., Vaatamoinen E., Venalainen S., Vanhanen H., Vellas B., Van Kan G.A., Biville V., Brigitte L., Cervera C., Cesari M., Champarnaud M., Cluzan C., Croizet M., Dardenne S., Dorard M., Dupuy C., Durand E., Faisant C., Fougere B., Girard P., Guyonnet S., Hoogendijk E., Mauroux R., Milhet A., Montel S., Ousset P.-J., Teguo M.T., Teysseyre B., Andrieu S., Blasimme A., Dray C., Rial-Sebbag E., Valet P., Dantoine T., Cardinaud N., Castelli M., Charenton-Blavignac M., Ciccolari-Micaldi C., Gayot C., Laubarie-Mouriet C., Marchesseau D., Mergans T., Nguyen T.B., Papon A., Ribet J., Saulinier I., Tchalla A., Rapp T., Sirven N., Skalska A., Blaszcyk E., Cwynar M., Czesak J., Fatyga P., Fedyk-Lukasik M., Grodzicki T., Jamrozik P., Janusz Z., Klimek E., Komoniewska S., Kret M., Ozog M., Parnicka A., Petitjean K., Pietrzyk A., Skalska-Dulinska B., Starzyk D., Szczerbinska K., Witkiewicz B., Wlodarczyk A., Sinclair A., Harris S., Ogborne A., Ritchie S., Sinclair C., Sinclair H., Bellary S., Worthington H., Derejczyk J., Roller-Wirnsberger R., Jonsson P., Bordes P., Arnaud S., Asbrand C., Bejuit R., Durand S., Flechsenhar K., Joly F., Lain R.L., Moncharmont M., Msihid J., Ndja A., Riche B., Weber A.C., Yuan J., Roubenoff R., Kortebein P., Miller R.R., Gorostiaga C., Belissa-Mathiot P., Hu H., Laigle L., Melchor I.M., Russel A., Bennecky M., Haws T., Joshi A., Philpott K., Walker A., Zia G., Giorgi S.D., Feletti L., Marchioro E., Mocci F., Varesio M.G., Cesario A., Cabin B., de Boer W.P., Ignaszewski C., Klingmann I., Vollenbroek-Hutten M., Hermens T., Jansen-Kosterink S., Tabak M., Blandin P., Coutard L., Lenzotti A.-M., Mokhtari H., Rodon N., Epidemiology and Data Science, APH - Aging & Later Life, and APH - Quality of Care

Subjects

0301 basic medicine, Gerontology, Sarcopenia, [SDV]Life Sciences [q-bio], Population, PROTEIN, RECOMMENDATIONS, law.invention, SUPPLEMENTATION, 03 medical and health sciences, 0302 clinical medicine, Randomized controlled trial, law, Intervention (counseling), Cultural diversity, medicine, Nutrition counselling, Nutrition intervention, Humans, 030212 general & internal medicine, Medical prescription, education, Exercise, Aged, 2. Zero hunger, education.field_of_study, 030109 nutrition & dietetics, Frailty, business.industry, Settore MED/09 - MEDICINA INTERNA, ADULTS, medicine.disease, mobility, 3. Good health, Feasibility Studie, Malnutrition, SPRINTT, resistance exercise, muscle mass, Protein intake, 3121 General medicine, internal medicine and other clinical medicine, Feasibility Studies, Energy intake, Independent Living, business, Nutrition counseling, Research Paper, Human

Abstract

Aim To describe the methods and feasibility of the nutritional intervention carried out within the SPRINTT Randomized cotrolled trial. We also illustrate how nutrition interventionists identified participants at risk of malnutrition and the lessons learnt from the nutrition intervention. Findings SPRINTT nutrition intervention was well-received by the majority of the participants. It was mainly carried out using tailored nutrition counselling, but also other means of delivering the intervention were successfully used. Compared with a standard nutrition prescription, an individualized protocol to diagnose malnutrition and follow-up by tailored nutrition counselling helped achieve nutritional targets more effectively in spite of diversity of population in nutritional habits and in some cases reluctance to accept changes. Message The SPRINTT nutrition intervention was feasible and allowed flexibility to the varying needs and cultural differences of this heterogeneous population of frail, older Europeans. It may serve as a model to educate and improve nutrition among community-dwelling older people at risk of mobility limitations. Supplementary Information The online version contains supplementary material available at 10.1007/s41999-020-00438-4., Background The “Sarcopenia and Physical Frailty in Older People: Multicomponent Treatment Strategies” (SPRINTT) project sponsored a multi-center randomized controlled trial (RCT) with the objective to determine the effect of physical activity and nutrition intervention for prevention of mobility disability in community-dwelling frail older Europeans. We describe here the design and feasibility of the SPRINTT nutrition intervention, including techniques used by nutrition interventionists to identify those at risk of malnutrition and to carry out the nutrition intervention. Methods SPRINTT RCT recruited older adults (≥ 70 years) from 11 European countries. Eligible participants (n = 1517) had functional limitations measured with Short Physical Performance Battery (SPPB score 3–9) and low muscle mass as determined by DXA scans, but were able to walk 400 m without assistance within 15 min. Participants were followed up for up to 3 years. The nutrition intervention was carried out mainly by individual nutrition counseling. Nutrition goals included achieving a daily protein intake of 1.0–1.2 g/kg body weight, energy intake of 25–30 kcal/kg of body weight/day, and serum vitamin D concentration ≥ 75 mmol/L. Survey on the method strategies and feasibility of the nutrition intervention was sent to all nutrition interventionists of the 16 SPRINTT study sites. Results Nutrition interventionists from all study sites responded to the survey. All responders found that the SPRINTT nutrition intervention was feasible for the target population, and it was well received by the majority. The identification of participants at nutritional risk was accomplished by combining information from interviews, questionnaires, clinical and laboratory data. Although the nutrition intervention was mainly carried out using individual nutritional counselling, other assisting methods were used as appropriate. Conclusion The SPRINTT nutrition intervention was feasible and able to adapt flexibly to varying needs of this heterogeneous population. The procedures adopted to identify older adults at risk of malnutrition and to design the appropriate intervention may serve as a model to deliver nutrition intervention for community-dwelling older people with mobility limitations. Supplementary Information The online version contains supplementary material available at 10.1007/s41999-020-00438-4.

Published

2021

3. EFFICIENCY OF THE CONTROL OF POLYPHARMACY IN PRIMARY CARE IN ELDERLY: CP51

Author

López, M. C., Muñoz, V. M., Zafra, O. L., Sepúlveda, L. P., Moreno, J. G., and Mora, E. V.

Published

2014

4. Gait Speed and Evolution of Verbal Fluencies in Frail or Prefrail Older People with Type 2 Diabetes. A Pilot Study.

Author

Domergue, H., Regueme, S. C., Zafra, O. L., Manaz-Rodriguez, L., Sinclair, A., and Bourdel-Marchasson, Isabelle

Subjects

COGNITION disorder risk factors, WALKING speed, PILOT projects, STATISTICS, PATIENT aftercare, FRAIL elderly, CLASSIFICATION, EFFECT sizes (Statistics), CASE-control method, PATIENTS, TYPE 2 diabetes, QUESTIONNAIRES, COGNITIVE testing, DATA analysis, OLD age

Abstract

Objectives: Type 2 diabetes (T2D) is a risk factor of frailty and cognitive impairment. Impaired gait in older people is associated with incident vascular dementia. We aimed to assess whether in frail or prefrail older subjects with T2D, lower gait speed can be associated with faster cognitive decline. Design: Case-control study nested in a large randomized control trial (RCT, MID-frail); post hoc analysis. Setting and Participants: Older frail and prefrail subjects (>70y) with T2D and with no history of cognitive problems were enrolled in a single recruiting center. Participants were divided into two groups depending on their walking speed — above (fast walkers) or below (slow walkers) using a cut off of 1 m/sec. Measure: Cognitive function was assessed at baseline and during follow-up with the MMSE, category and letter fluencies at 15 sec (initiation) and 15–60 sec (late). Results: 48 subjects were included, 22 were fast walkers, 26 were slow walkers. The mean follow-up was 60.9 (SD 17.5) weeks. The baseline 0–15 sec letter fluency was higher in fast walkers (p=0.008). There was no difference at baseline with MMSE scores and category fluency. The MID-Frail intervention did not change the evolution of any cognitive changes. Comparisons were adjusted for age, sex and baseline performance, and showed a steeper decline of category fluency score in slow walkers (fast walkers +0.04 (−1.49 to1.56) compared with −0.89 (−2.15 to 0.38), p=0.049) with a moderate effect size. Conclusion: In frail or prefrail older adults with diabetes, we observed a decline in category fluency in those with low gait speed. [ABSTRACT FROM AUTHOR]

Published

2021

5. THE USE OF POSTUROGRAPHY IN INVESTIGATING THE RISK OF FALLING IN FRAIL OR PREFRAIL OLDER PEOPLE WITH DIABETES

Author

Domergue, H., primary, Rodríguez-Mañas, L., additional, Laosa Zafra, O., additional, Hood, K., additional, Gasq, D., additional, Regueme, S., additional, Sinclair, A.J., additional, and Bourdel-Marchasson, I., additional

Published

2019

6. The role of nitric-oxide-synthase-derived nitric oxide in multicellular traits of Bacillus subtilis 3610: biofilm formation, swarming, and dispersal

Author

Lamprecht-Grandio María, Enning Dennis, Beutler Martin, Schreiber Frank, Zafra Olga, González-Pastor José, and de Beer Dirk

Subjects

Microbiology, QR1-502

Abstract

Abstract Background Bacillus subtilis 3610 displays multicellular traits as it forms structurally complex biofilms and swarms on solid surfaces. In addition, B. subtilis encodes and expresses nitric oxide synthase (NOS), an enzyme that is known to enable NO-mediated intercellular signalling in multicellular eukaryotes. In this study, we tested the hypothesis that NOS-derived NO is involved in the coordination of multicellularity in B. subtilis 3610. Results We show that B. subtilis 3610 produces intracellular NO via NOS activity by combining Confocal Laser Scanning Microscopy with the NO sensitive dye copper fluorescein (CuFL). We further investigated the influence of NOS-derived NO and exogenously supplied NO on the formation of biofilms, swarming motility and biofilm dispersal. These experiments showed that neither the suppression of NO formation with specific NOS inhibitors, NO scavengers or deletion of the nos gene, nor the exogenous addition of NO with NO donors affected (i) biofilm development, (ii) mature biofilm structure, and (iii) swarming motility in a qualitative and quantitative manner. In contrast, the nos knock-out and wild-type cells with inhibited NOS displayed strongly enhanced biofilm dispersal. Conclusion The results suggest that biofilm formation and swarming motility in B. subtilis represent complex multicellular processes that do not employ NO signalling and are remarkably robust against interference of NO. Rather, the function of NOS-derived NO in B. subtilis might be specific for cytoprotection against oxidative stress as has been proposed earlier. The influence of NOS-derived NO on dispersal of B. subtilis from biofilms might be associated to its well-known function in coordinating the transition from oxic to anoxic conditions. Here, NOS-derived NO might be involved in fine-tuning the cellular decision-making between adaptation of the metabolism to (anoxic) conditions in the biofilm or dispersal from the biofilm.

Published

2011

7. Dichotomous colorectal cancer behaviour.

Author

Aljama S, Lago EP, Zafra O, Sierra J, Simón D, Santos C, Pascual JR, and Garcia-Romero N

Subjects

Humans, Colorectal Neoplasms therapy, Colorectal Neoplasms drug therapy, Colonic Neoplasms pathology

Abstract

Colorectal cancer (CRC) is the third most common malignant tumor and one of the deadliest cancers. At molecular level, CRC is a heterogeneous disease that could be divided in four Consensus Molecular Subtypes. Given the differences in the disease due to its anatomical location (proximal and distal colon), another classification should be considered. Here, we review the current knowledge on CRC dichotomic´s behaviour based on two different entities; right and left-sided tumors, their impact on clinical trial data, microbiota spatial composition and the interaction with the nervous system. We discuss recent advances in understanding how the spatial tumor heterogeneity influences the tumor growth, progression, and responses to current therapies., Competing Interests: Declaration of Competing Interest All authors declare that there is no financial or other conflict of interest in the preparation of this article., (Copyright © 2023 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2023

8. Superiority of a Novel Multifunctional Amorphous Hydrogel Containing Olea europaea Leaf Extract (EHO-85) for the Treatment of Skin Ulcers: A Randomized, Active-Controlled Clinical Trial.

Author

Verdú-Soriano J, de Cristino-Espinar M, Luna-Morales S, Dios-Guerra C, Caballero-Villarraso J, Moreno-Moreno P, Casado-Díaz A, Berenguer-Pérez M, Guler-Caamaño I, Laosa-Zafra O, Rodríguez-Mañas L, and Lázaro-Martínez JL

Abstract

This 8-week, multicenter, randomized, active-controlled, observer-blinded clinical trial was designed to demonstrate the accelerating effect on wound healing of the novel Olea europaea leaf extract hydrogel (EHO-85) by comparing it to a widely used amorphous hydrogel. Results showed that EHO-85 significantly accelerated wound healing, regardless of ulcer etiology (pressure, venous leg or diabetic foot) and prognosis, doubling the median wound area reduction compared with a reference amorphous hydrogel (79.4% vs. 39.7%; difference: −39.7%, 95% CI: −71.1 to −21.3%; p < 0.001). The intention-to-treat analysis was conducted on 195 patients from 23 Spanish health centers/nursing homes. This novel treatment balances the ulcer microenvironment by modulating reactive oxygen species and pH. These actions complement the moistening and barrier functions inherent to amorphous hydrogels, whilst also conferring EHO-85 its documented granulation formation and pain relief properties. Furthermore, efficacy was achieved safely and in a cost-efficient manner due to its multi-dose format, which reduced the amount of product needed by 85.8% over 8 weeks compared to single-use hydrogel. The present randomized controlled trial is a relevant milestone in evidence-based practice for being the first to demonstrate (i) the effectiveness of an amorphous hydrogel in accelerating wound healing and (ii) the superiority of a specific hydrogel over another.

Published

2022

9. Mechanisms and Regulation of Extracellular DNA Release and Its Biological Roles in Microbial Communities.

Author

Ibáñez de Aldecoa AL, Zafra O, and González-Pastor JE

Abstract

The capacity to release genetic material into the extracellular medium has been reported in cultures of numerous species of bacteria, archaea, and fungi, and also in the context of multicellular microbial communities such as biofilms. Moreover, extracellular DNA (eDNA) of microbial origin is widespread in natural aquatic and terrestrial environments. Different specific mechanisms are involved in eDNA release, such as autolysis and active secretion, as well as through its association with membrane vesicles. It is noteworthy that in microorganisms, in which DNA release has been studied in detail, the production of eDNA is coordinated by the population when it reaches a certain cell density, and is induced in a subpopulation in response to the accumulation of quorum sensing signals. Interestingly, in several bacteria there is also a relationship between eDNA release and the development of natural competence (the ability to take up DNA from the environment), which is also controlled by quorum sensing. Then, what is the biological function of eDNA? A common biological role has not been proposed, since different functions have been reported depending on the microorganism. However, it seems to be important in biofilm formation, can be used as a nutrient source, and could be involved in DNA damage repair and gene transfer. This review covers several aspects of eDNA research: (i) its occurrence and distribution in natural environments, (ii) the mechanisms and regulation of its release in cultured microorganisms, and (iii) its biological roles. In addition, we propose that eDNA release could be considered a social behavior, based on its quorum sensing-dependent regulation and on the described functions of eDNA in the context of microbial communities.

Published

2017

10. Selective Low-Volume Nerve Block for the Open Surgical Fixation of a Midshaft Clavicle Fracture in a Conscious High-Risk Patient: A Case Report.

Author

Salvadores de Arzuaga CI, Naya Sieiro JM, Salmeron Zafra O, González Posada MA, and Marquez Martínez E

Subjects

Aged, Clavicle diagnostic imaging, Clavicle injuries, Fractures, Bone complications, Fractures, Bone diagnostic imaging, Humans, Male, Pulmonary Disease, Chronic Obstructive diagnosis, Risk Factors, Treatment Outcome, Accidental Falls, Anesthesia, General adverse effects, Anesthetics, Local administration & dosage, Clavicle surgery, Fractures, Bone surgery, Nerve Block methods, Open Fracture Reduction, Pulmonary Disease, Chronic Obstructive complications

Abstract

We report a case of successful intraoperative management using only low-volume regional anesthesia for the open surgical fixation of a traumatic clavicle fracture in a conscious 69-year-old man with severe chronic obstructive pulmonary disease. To avoid general anesthesia, we provided low-volume C5 and C6 nerve root blocks along with a superficial cervical plexus block using only 9 mL of anesthetic solution to avoid the often encountered complications of higher volume injections. Throughout the procedure, the patient remained comfortable and cooperative with stable hemodynamics and respiration. The postoperative course was uncomplicated.

Published

2017

11. The anti/syn conformation of 8-oxo-7,8-dihydro-2'-deoxyguanosine is modulated by Bacillus subtilis PolX active site residues His255 and Asn263. Efficient processing of damaged 3'-ends.

Author

Zafra O, Pérez de Ayala L, and de Vega M

Subjects

8-Hydroxy-2'-Deoxyguanosine, Amino Acid Sequence, Bacillus subtilis genetics, DNA Repair, DNA, Bacterial metabolism, Deoxyguanosine chemistry, Deoxyguanosine metabolism, Kinetics, Molecular Conformation, Sequence Alignment, Bacillus subtilis enzymology, Catalytic Domain, DNA Damage, DNA-Directed DNA Polymerase metabolism, Deoxyguanosine analogs & derivatives, Models, Molecular

Abstract

8-oxo-7,8-dihydro-2'-deoxyguanosine (8oxodG) is a major lesion resulting from oxidative stress and found in both DNA and dNTP pools. Such a lesion is usually removed from DNA by the Base Excision Repair (BER), a universally conserved DNA repair pathway. 8oxodG usually adopts the favored and promutagenic syn-conformation at the active site of DNA polymerases, allowing the base to hydrogen bonding with adenine during DNA synthesis. Here, we study the structural determinants that affect the glycosidic torsion-angle of 8oxodGTP at the catalytic active site of the family X DNA polymerase from Bacillus subtilis (PolXBs). We show that, unlike most DNA polymerases, PolXBs exhibits a similar efficiency to stabilize the anti and syn conformation of 8oxodGTP at the catalytic site. Kinetic analyses indicate that at least two conserved residues of the nucleotide binding pocket play opposite roles in the anti/syn conformation selectivity, Asn263 and His255 that favor incorporation of 8oxodGMP opposite dA and dC, respectively. In addition, the presence in PolXBs of Mn 2+ -dependent 3'-phosphatase and 3'-phosphodiesterase activities is also shown. Those activities rely on the catalytic center of the C-terminal Polymerase and Histidinol Phosphatase (PHP) domain of PolXBs and, together with its 3'-5' exonuclease activity allows the enzyme to resume gap-filling after processing of damaged 3' termini., (Copyright © 2017 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2017

12. An AFLP based method for the detection and identification of indigenous yeast in complex must samples without a microbiological culture.

Author

Baselga I, Zafra O, Pérez Lago E, Francisco-Álvarez R, Rodriguez-Tarduchy G, and Santos C

Subjects

DNA, Fungal genetics, Fermentation, Species Specificity, Yeasts genetics, Yeasts isolation & purification, Amplified Fragment Length Polymorphism Analysis methods, Vitis microbiology, Wine microbiology, Yeasts classification

Abstract

Ribera de Duero Spanish wines are appreciated worldwide for their organoleptic characteristics; however, the wine market is very competitive, and the demand for high quality natural wines has been increasing in recent years. The microbiology of the process, specifically the yeasts involved in the alcoholic fermentation, constitutes an essential element directly related to the complexity and quality of the wine. Our work has focused on the development of a procedure to identify the indigenous wine yeasts present in complex samples of must and wine, without requiring colony isolation or a microbiological culture. The procedure is based on the use of AFLP molecular markers. The AFLP allele profiles obtained from complex samples are compared with the species-specific ones previously determined and included in a database using a sorting algorithm. The system allows a fast and efficient identification of yeast species and strains present in complex must and wine samples. This information can then be used by the enologists during the fermentation process in order to obtain signed wines., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2017

13. Identification of a conserved 5'-dRP lyase activity in bacterial DNA repair ligase D and its potential role in base excision repair.

Author

de Ory A, Nagler K, Carrasco B, Raguse M, Zafra O, Moeller R, and de Vega M

Subjects

DNA Breaks, Double-Stranded, DNA Ligases metabolism, DNA Repair genetics, Phosphorus-Oxygen Lyases metabolism, Pseudomonas aeruginosa enzymology, Bacillus subtilis enzymology, DNA End-Joining Repair genetics, DNA Ligases genetics, Phosphorus-Oxygen Lyases genetics

Abstract

Bacillus subtilis is one of the bacterial members provided with a nonhomologous end joining (NHEJ) system constituted by the DNA-binding Ku homodimer that recruits the ATP-dependent DNA Ligase D (BsuLigD) to the double-stranded DNA breaks (DSBs) ends. BsuLigD has inherent polymerization and ligase activities that allow it to fill the short gaps that can arise after realignment of the broken ends and to seal the resulting nicks, contributing to genome stability during the stationary phase and germination of spores. Here we show that BsuLigD also has an intrinsic 5'-2-deoxyribose-5-phosphate (dRP) lyase activity located at the N-terminal ligase domain that in coordination with the polymerization and ligase activities allows efficient repairing of 2'-deoxyuridine-containing DNA in an in vitro reconstituted Base Excision Repair (BER) reaction. The requirement of a polymerization, a dRP removal and a final sealing step in BER, together with the joint participation of BsuLigD with the spore specific AP endonuclease in conferring spore resistance to ultrahigh vacuum desiccation suggest that BsuLigD could actively participate in this pathway. We demonstrate the presence of the dRP lyase activity also in the homolog protein from the distantly related bacterium Pseudomonas aeruginosa, allowing us to expand our results to other bacterial LigDs., (© The Author(s) 2016. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published

2016

14. Phenotypic knockouts of selected metabolic pathways by targeting enzymes with camel-derived nanobodies (V(HH)s).

Author

Jiménez JI, Fraile S, Zafra O, and de Lorenzo V

Subjects

Animals, Bacterial Proteins genetics, Bacterial Proteins metabolism, Camelus, Dioxygenases genetics, Dioxygenases metabolism, Escherichia coli genetics, Pseudomonas putida genetics, Single-Domain Antibodies genetics, Bacterial Proteins antagonists & inhibitors, Dioxygenases antagonists & inhibitors, Escherichia coli enzymology, Pseudomonas putida enzymology, Single-Domain Antibodies biosynthesis

Abstract

Surveying the dynamics of metabolic networks of Gram-negative bacteria often requires the conditional shutdown of enzymatic activities once the corresponding proteins have been produced. We show that given biochemical functions can be entirely suppressed in vivo with camel antibodies (VHHs, nanobodies) that target active sites of cognate enzymes expressed in the cytoplasm. As a proof of principle, we raised VHHs against 2,5-dihydroxypyridine dioxygenase (NicX) of Pseudomonas putida, involved in nicotinic acid metabolism. Once fused to a thioredoxin domain, the corresponding nanobodies inhibited the enzyme both in Escherichia coli and in P. putida cells, which then accumulated the metabolic substrate of NicX. VHHs were further engineered to track the antigen in vivo by C-terminal fusion to a fluorescent protein. Conditional expression of the resulting VHHs allows simultaneously to track and target proteins of interest and enables the design of transient phenotypes without mutating the genetic complement of the bacteria under study., (Copyright © 2015 International Metabolic Engineering Society. Published by Elsevier Inc. All rights reserved.)

Published

2015

15. Efficient processing of abasic sites by bacterial nonhomologous end-joining Ku proteins.

Author

de Ory A, Zafra O, and de Vega M

Subjects

DNA metabolism, DNA Ligases metabolism, Bacillus subtilis enzymology, Bacterial Proteins metabolism, DNA End-Joining Repair, DNA-(Apurinic or Apyrimidinic Site) Lyase metabolism, DNA-Binding Proteins metabolism, Phosphorus-Oxygen Lyases metabolism

Abstract

Intracellular reactive oxygen species as well as the exposure to harsh environmental conditions can cause, in the single chromosome of Bacillus subtilis spores, the formation of apurinic/apyrimidinic (AP) sites and strand breaks whose repair during outgrowth is crucial to guarantee cell viability. Whereas double-stranded breaks are mended by the nonhomologous end joining (NHEJ) system composed of an ATP-dependent DNA Ligase D (LigD) and the DNA-end-binding protein Ku, repair of AP sites would rely on an AP endonuclease or an AP-lyase, a polymerase and a ligase. Here we show that B. subtilis Ku (BsuKu), along with its pivotal role in allowing joining of two broken ends by B. subtilis LigD (BsuLigD), is endowed with an AP/deoxyribose 5'-phosphate (5'-dRP)-lyase activity that can act on ssDNA, nicked molecules and DNA molecules without ends, suggesting a potential role in BER during spore outgrowth. Coordination with BsuLigD makes possible the efficient joining of DNA ends with near terminal abasic sites. The role of this new enzymatic activity of Ku and its potential importance in the NHEJ pathway is discussed. The presence of an AP-lyase activity also in the homolog protein from the distantly related bacterium Pseudomonas aeruginosa allows us to expand our results to other bacterial Ku proteins., (© The Author(s) 2014. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published

2014

16. Extracellular DNA release by undomesticated Bacillus subtilis is regulated by early competence.

Author

Zafra O, Lamprecht-Grandío M, de Figueras CG, and González-Pastor JE

Subjects

Bacterial Proteins genetics, Biofilms, Cloning, Molecular, DNA metabolism, DNA Transposable Elements genetics, DNA, Bacterial genetics, Deoxyribonuclease I metabolism, Escherichia coli Proteins metabolism, Flow Cytometry methods, Gene Library, Gene Transfer, Horizontal, Mutagenesis, Mutation, Phenotype, Plasmids metabolism, Ribosomal Proteins metabolism, Temperature, Bacillus subtilis genetics

Abstract

Extracellular DNA (eDNA) release is a widespread capacity described in many microorganisms. We identified and characterized lysis-independent eDNA production in an undomesticated strain of Bacillus subtilis. DNA fragments are released during a short time in late-exponential phase. The released eDNA corresponds to whole genome DNA, and does not harbour mutations suggesting that is not the result of error prone DNA synthesis. The absence of eDNA was linked to a spread colony morphology, which allowed a visual screening of a transposon library to search for genes involved in its production. Transposon insertions in genes related to quorum sensing and competence (oppA, oppF and comXP) and to DNA metabolism (mfd and topA) were impaired in eDNA release. Mutants in early competence genes such as comA and srfAA were also defective in eDNA while in contrast mutations in late competence genes as those for the DNA uptake machinery had no effect. A subpopulation of cells containing more DNA is present in the eDNA producing strains but absent from the eDNA defective strain. Finally, competent B. subtilis cells can be transformed by eDNA suggesting it could be used in horizontal gene transfer and providing a rationale for the molecular link between eDNA release and early-competence in B. subtilis that we report.

Published

2012

17. The role of nitric-oxide-synthase-derived nitric oxide in multicellular traits of Bacillus subtilis 3610: biofilm formation, swarming, and dispersal.

Author

Schreiber F, Beutler M, Enning D, Lamprecht-Grandio M, Zafra O, González-Pastor JE, and de Beer D

Subjects

Bacillus subtilis growth & development, Bacillus subtilis metabolism, Gene Expression Regulation, Bacterial, Microscopy, Confocal methods, Staining and Labeling methods, Bacillus subtilis enzymology, Bacillus subtilis physiology, Biofilms growth & development, Locomotion, Nitric Oxide metabolism, Nitric Oxide Synthase metabolism, Signal Transduction

Abstract

Background: Bacillus subtilis 3610 displays multicellular traits as it forms structurally complex biofilms and swarms on solid surfaces. In addition, B. subtilis encodes and expresses nitric oxide synthase (NOS), an enzyme that is known to enable NO-mediated intercellular signalling in multicellular eukaryotes. In this study, we tested the hypothesis that NOS-derived NO is involved in the coordination of multicellularity in B. subtilis 3610., Results: We show that B. subtilis 3610 produces intracellular NO via NOS activity by combining Confocal Laser Scanning Microscopy with the NO sensitive dye copper fluorescein (CuFL). We further investigated the influence of NOS-derived NO and exogenously supplied NO on the formation of biofilms, swarming motility and biofilm dispersal. These experiments showed that neither the suppression of NO formation with specific NOS inhibitors, NO scavengers or deletion of the nos gene, nor the exogenous addition of NO with NO donors affected (i) biofilm development, (ii) mature biofilm structure, and (iii) swarming motility in a qualitative and quantitative manner. In contrast, the nos knock-out and wild-type cells with inhibited NOS displayed strongly enhanced biofilm dispersal., Conclusion: The results suggest that biofilm formation and swarming motility in B. subtilis represent complex multicellular processes that do not employ NO signalling and are remarkably robust against interference of NO. Rather, the function of NOS-derived NO in B. subtilis might be specific for cytoprotection against oxidative stress as has been proposed earlier. The influence of NOS-derived NO on dispersal of B. subtilis from biofilms might be associated to its well-known function in coordinating the transition from oxic to anoxic conditions. Here, NOS-derived NO might be involved in fine-tuning the cellular decision-making between adaptation of the metabolism to (anoxic) conditions in the biofilm or dispersal from the biofilm.

Published

2011

18. Monitoring biodegradative enzymes with nanobodies raised in Camelus dromedarius with mixtures of catabolic proteins.

Author

Zafra O, Fraile S, Gutiérrez C, Haro A, Páez-Espino AD, Jiménez JI, and de Lorenzo V

Subjects

Animals, Arsenate Reductases immunology, Bacterial Proteins immunology, Bacterial Proteins metabolism, Biodegradation, Environmental, Camelus immunology, Dioxygenases immunology, Gene Library, Male, Models, Molecular, Peptide Library, Sequence Analysis, Protein, Arsenate Reductases metabolism, Burkholderia enzymology, Dioxygenases metabolism, Immunoglobulin Heavy Chains biosynthesis, Staphylococcus aureus enzymology

Abstract

Functional studies of biodegradative activities in environmental microorganisms require molecular tools for monitoring catabolic enzymes in the members of the native microbiota. To this end, we have generated repertories of single-domain V(HH) fragments of camel immunoglobulins (nanobodies) able to interact with multiple proteins that are descriptors of environmentally relevant processes. For this, we immunized Camelus dromedarius with a cocktail of up to 12 purified enzymes that are representative of major types of detoxifying activities found in aerobic and anaerobic microorganisms. Following the capture of the antigen-binding modules from the mRNA of the camel lymphocytes and the selection of sub-libraries for each of the enzymes in a phage display system we found a large number of V(HH) modules that interacted with each of the antigens. Those associated to the enzyme 2,3 dihydroxybiphenyl dioxygenase of Burkholderia xenovorans LB400 (BphC) and the arsenate reductase of Staphylococcus aureus (ArsC) were examined in detail and found to hold different qualities that were optimal for distinct protein recognition procedures. The repertory of anti-BphC V(HH) s included variants with a strong affinity and specificity for linear epitopes of the enzyme. When the anti-BphC V(HH) library was recloned in a prokaryotic intracellular expression system, some nanobodies were found to inhibit the dioxygenase activity in vivo. Furthermore, anti-ArsC V(HH) s were able to discriminate between proteins stemming from different enzyme families. The easiness of generating large collections of binders with different properties widens considerably the molecular toolbox for analysis of biodegradative bacteria and opens fresh possibilities of monitoring protein markers and activities in the environment., (© 2011 Society for Applied Microbiology and Blackwell Publishing Ltd.)

Published

2011

19. A cytochrome c containing nitrate reductase plays a role in electron transport for denitrification in Thermus thermophilus without involvement of the bc respiratory complex.

Author

Cava F, Zafra O, and Berenguer J

Subjects

Anaerobiosis, Artificial Gene Fusion, Cytochromes c genetics, Electron Transport, Genes, Reporter, Heme analogs & derivatives, Heme metabolism, Microbial Viability, Models, Biological, Mutation, NAD metabolism, Nitric Oxide metabolism, Nitrites metabolism, Oxidation-Reduction, Thermus thermophilus genetics, beta-Galactosidase genetics, beta-Galactosidase metabolism, Bacterial Proteins metabolism, Cytochromes c metabolism, Nitrate Reductase metabolism, Nitrates metabolism, Nitrogen metabolism, Thermus thermophilus enzymology

Abstract

The bc(1) respiratory complex III constitutes a key energy-conserving respiratory electron transporter between complex I (type I NADH dehydrogenase) and II (succinate dehydrogenase) and the final nitrogen oxide reductases (Nir, Nor and Nos) in most denitrifying bacteria. However, we show that the expression of complex III from Thermus thermophilus is repressed under denitrification, and that its role as electron transporter is replaced by an unusual nitrate reductase (Nar) that contains a periplasmic cytochrome c (NarC). Several lines of evidence support this conclusion: (i) nitrite and NO are as effective signals as nitrate for the induction of Nar; (ii) narC mutants are defective in anaerobic growth with nitrite, NO and N2O; (iii) such mutants present decreased NADH oxidation coupled to these electron acceptors; and (iv) complementation assays of the mutants reveal that the membrane-distal heme c of NarC was necessary for anaerobic growth with nitrite, whereas the membrane-proximal heme c was not. Finally, we show evidence to support that Nrc, the main NADH oxidative activity in denitrification, interacts with Nar through their respective membrane subunits. Thus, we propose the existence of a Nrc-Nar respiratory super-complex that is required for the development of the whole denitrification pathway in T. thermophilus.

Published

2008

20. The role of the nitrate respiration element of Thermus thermophilus in the control and activity of the denitrification apparatus.

Author

Cava F, Zafra O, da Costa MS, and Berenguer J

Subjects

Anaerobiosis, Bacterial Proteins genetics, Bacterial Proteins metabolism, Conjugation, Genetic, Nitrites metabolism, Nitrogen Oxides, Oxygen pharmacology, Thermus thermophilus growth & development, Thermus thermophilus metabolism, Transcription Factors genetics, Transcription Factors metabolism, DNA Transposable Elements, Gene Expression Regulation, Bacterial, Nitrates metabolism, Oxygen Consumption, Thermus thermophilus genetics

Abstract

The nitrate conjugative element (NCE) encodes the ability to respire nitrate in the facultative Thermus thermophilus NAR1 strain. This process is carried out by two heterotetrameric enzymes that catalyse the oxidation of NADH (Nrc) and the reduction of nitrate (Nar), whose expression is activated by the NCE-encoded transcription factors DnrS and DnrT. We report the presence of NCE in other facultative strains of T. thermophilus and analyse its role in subsequent steps of the denitrification pathway. We encountered that nrc mutants of denitrifying strains show a decrease in anaerobic growth rates not only with nitrate, but also with nitrite, NO and N(2)O, which is concomitant to their lower NADH oxidation activities in vitro. We show that nitrate, nitrite and NO are activating signals for transcription of nrc in these strains. Finally, we demonstrate that DnrS and DnrT are required for anaerobic growth not only with nitrate, but also with nitrite, NO and N(2)O. These data allow us to conclude that: (i) Nrc constitutes the main electron donor for the four reductases of the denitrification pathway, and (ii) the NCE controls the expression of the whole denitrification pathway and the repression of the aerobic respiration through the transcription factors DnrS and DnrT.

Published

2008

21. Membrane-associated maturation of the heterotetrameric nitrate reductase of Thermus thermophilus.

Author

Zafra O, Cava F, Blasco F, Magalon A, and Berenguer J

Subjects

Bacterial Proteins physiology, Cell Membrane enzymology, Cytochromes b physiology, Cytochromes c physiology, Enzyme Activation, Gene Expression, Mutagenesis, Insertional, Nitrate Reductase, Operon, Nitrate Reductases metabolism, Thermus thermophilus enzymology

Abstract

The nar operon, coding for the respiratory nitrate reductase of Thermus thermophilus (NRT), encodes a di-heme b-type (NarJ) and a di-heme c-type (NarC) cytochrome. The role of both cytochromes and that of a putative chaperone (NarJ) in the synthesis and maturation of NRT was studied. Mutants of T. thermophilus lacking either NarI or NarC synthesized a soluble form of NarG, suggesting that a putative NarCI complex constitutes the attachment site for the enzyme. Interestingly, the NarG protein synthesized by both mutants was inactive in nitrate reduction and misfolded, showing that membrane attachment was required for enzyme maturation. Consistent with its putative role as a specific chaperone, inactive and misfolded NarG was synthesized by narJ mutants, but in contrast to its Escherichia coli homologue, NarJ was also required for the attachment of the thermophilic enzyme to the membrane. A bacterial two-hybrid system was used to demonstrate the putative interactions between the NRT proteins suggested by the analysis of the mutants. Strong interactions were detected between NarC and NarI and between NarG and NarJ. Weaker interaction signals were detected between NarI, but not NarC, and both NarG and NarH. These results lead us to conclude that the NRT is a heterotetrameric (NarC/NarI/NarG/NarH) enzyme, and we propose a model for its synthesis and maturation that is distinct from that of E. coli. In the synthesis of NRT, a NarCI membrane complex and a soluble NarGJH complex are synthesized in a first step. In a second step, both complexes interact at the cytoplasmic face of the membrane, where the enzyme is subsequently activated with the concomitant conformational change and release of the NarJ chaperone from the mature enzyme.

Published

2005

22. A new type of NADH dehydrogenase specific for nitrate respiration in the extreme thermophile Thermus thermophilus.

Author

Cava F, Zafra O, Magalon A, Blasco F, and Berenguer J

Subjects

Base Sequence, Catalytic Domain, Cloning, Molecular, Conjugation, Genetic, Electron Transport, Molecular Sequence Data, NADH Dehydrogenase chemistry, NADH Dehydrogenase genetics, Operon, Oxidation-Reduction, Transcription, Genetic, NADH Dehydrogenase physiology, Nitrates metabolism, Thermus thermophilus enzymology

Abstract

A four-gene operon (nrcDEFN) was identified within a conjugative element that allows Thermus thermophilus to use nitrate as an electron acceptor. Three of them encode homologues to components of bacterial respiratory chains: NrcD to ferredoxins; NrcF to iron-sulfur-containing subunits of succinate-quinone oxidoreductase (SQR); and NrcN to type-II NADH dehydrogenases (NDHs). The fourth gene, nrcE, encodes a membrane protein with no homologues in the protein data bank. Nitrate reduction with NADH was catalyzed by membrane fractions of the wild type strain, but was severely impaired in nrc::kat insertion mutants. A fusion to a thermophilic reporter gene was used for the first time in Thermus spp. to show that expression of nrc required the presence of nitrate and anoxic conditions. Therefore, a role for the nrc products as a new type of membrane NDH specific for nitrate respiration was deduced. Consistent with this, nrc::kat mutants grew more slowly than the wild type strain under anaerobic conditions, but not in the presence of oxygen. The oligomeric structure of this Nrc-NDH was deduced from the analysis of insertion mutants and a two-hybrid bacterial system. Attachment to the membrane of NrcD, NrcF, and NrcN was dependent on NrcE, whose cytoplasmic C terminus interacts with the three proteins. Interactions were also detected between NrcN and NrcF. Inactivation of nrcF produced solubilization of NrcN, but not of NrcD. These data lead us to conclude that the Nrc proteins form a distinct third type of bacterial respiratory NDH.

Published

2004

23. Thermus thermophilus as a cell factory for the production of a thermophilic Mn-dependent catalase which fails to be synthesized in an active form in Escherichia coli.

Author

Hidalgo A, Betancor L, Moreno R, Zafra O, Cava F, Fernández-Lafuente R, Guisán JM, and Berenguer J

Subjects

Catalase chemistry, Catalase genetics, Enzyme Stability, Catalase biosynthesis, Escherichia coli enzymology, Manganese pharmacology, Thermus thermophilus enzymology

Abstract

Thermostable Mn-dependent catalases are promising enzymes in biotechnological applications as H(2)O(2)-detoxifying systems. We cloned the genes encoding Mn-dependent catalases from Thermus thermophilus HB27 and HB8 and a less thermostable mutant carrying two amino acid replacements (M129V and E293G). When the wild-type and mutant genes were overexpressed in Escherichia coli, unmodified or six-His-tagged proteins of the expected size were overproduced as inactive proteins. Several attempts to obtain active forms or to activate the overproduced proteins were unsuccessful, even when soluble and thermostable proteins were used. Therefore, a requirement for a Thermus-specific activation factor was suggested. To overcome this problem, the Mn-dependent catalase genes were overexpressed directly in T. thermophilus under the control of the Pnar promoter. This promoter belongs to a respiratory nitrate reductase from of T. thermophilus HB8, whose transcription is activated by the combined action of nitrate and anoxia. Upon induction in T. thermophilus HB8, a 20- to 30-fold increase in catalase specific activity was observed, whereas a 90- to 110-fold increase was detected when the laboratory strain T. thermophilus HB27::nar was used as the host. The thermostability of the overproduced wild-type catalase was identical to that previously reported for the native enzyme, whereas decreased stability was detected for the mutant derivative. Therefore, our results validate the use of T. thermophilus as an alternative cell factory for the overproduction of thermophilic proteins that fail to be expressed in well-known mesophilic hosts.

Published

2004

24. Development of a gene expression vector for Thermus thermophilus based on the promoter of the respiratory nitrate reductase.

Author

Moreno R, Zafra O, Cava F, and Berenguer J

Subjects

Alkaline Phosphatase genetics, Anaerobiosis, Base Sequence, Cloning, Molecular, Cytoplasm genetics, Escherichia coli genetics, Gene Expression, Gene Expression Regulation, Bacterial, Genes, Reporter, Interspersed Repetitive Sequences, Molecular Sequence Data, Multigene Family, Nitrate Reductase, Nitrates physiology, Periplasm genetics, Thermus thermophilus metabolism, beta-Galactosidase genetics, Genetic Vectors, Nitrate Reductases genetics, Promoter Regions, Genetic, Thermus thermophilus genetics

Abstract

A specific expression system for Thermus spp. is described. Plasmid pMKE1 contains replicative origins for Escherichia coli and Thermus spp., a selection gene encoding a thermostable resistance to kanamycin, and a 720 bp DNA region containing the promoter (Pnar), and the regulatory sequences of the respiratory nitrate reductase operon of Thermus thermophilus HB8. Two genes, encoding a thermophilic beta-galactosidase and an alkaline phosphatase were cloned in pMKE1 as cytoplasmic and periplasmic reporters, respectively. The expression of the reporters was specifically induced by the combined action of nitrate and anoxia in facultative anaerobic derivatives of T. thermophilus HB27 to which the gene cluster for nitrate respiration was transferred by conjugation. Overexpressions in the range of approximately 200-fold were obtained for the cytoplasmic reporter, whereas that of the periplasmic reporter was limited to approximately 20-fold, with respect to their intrinsic respective activities., (Copyright 2002 Elsevier Science (USA))

Published

2003

25. A cytochrome c encoded by the nar operon is required for the synthesis of active respiratory nitrate reductase in Thermus thermophilus.

Author

Zafra O, Ramírez S, Castán P, Moreno R, Cava F, Vallés C, Caro E, and Berenguer J

Subjects

Cytochrome c Group genetics, Membrane Proteins genetics, Membrane Proteins metabolism, Nitrate Reductase, Nitrate Reductases genetics, Nitrate Reductases metabolism, Operon genetics, Thermus thermophilus genetics, Thermus thermophilus metabolism, Cytochrome c Group metabolism, Multienzyme Complexes metabolism, NADH, NADPH Oxidoreductases metabolism, Nitrate Reductases biosynthesis, Thermus thermophilus enzymology

Abstract

A cytochrome c (NarC) is encoded as the first gene of the operon for nitrate respiration in Thermus thermophilus. NarC is required for anaerobic growth and for the synthesis of active nitrate reductase (NR). The alpha and delta subunits (NarG, NarJ) of the NR were constitutively expressed in narC::kat mutants, but NarG appeared in the soluble fraction instead of associated with the membranes. Our data demonstrate for NarC an essential role in the synthesis of active enzyme and for the attachment to the membrane of the respiratory NR from T. thermophilus.

Published

2002

26. The periplasmic space in Thermus thermophilus: evidence from a regulation-defective S-layer mutant overexpressing an alkaline phosphatase.

Author

Castán P, Zafra O, Moreno R, de Pedro MA, Vallés C, Cava F, Caro E, Schwarz H, and Berenguer J

Subjects

Alkaline Phosphatase genetics, Base Sequence, Cloning, Molecular, DNA Primers, Microscopy, Confocal, Microscopy, Electron, Polymerase Chain Reaction, Thermus thermophilus genetics, Thermus thermophilus ultrastructure, Alkaline Phosphatase metabolism, Mutation, Periplasm enzymology, Thermus thermophilus enzymology

Abstract

The presence of a periplasmic space within the cell envelope of Thermus thermophilus was analyzed in a mutant (HB8(Delta)UTR1) defective in the regulation of its S-layer (surface crystalline layer). This mutant forms round multicellular bodies (MBs) surrounded by a common envelope as the culture approaches the stationary phase. Confocal microscopy revealed that the origin of the MBs is the progressive detachment of the external layers coupled with the accumulation of NH(2)-containing material between the external envelopes and the peptidoglycan. A specific pattern of proteins was found as soluble components of the intercellular space of the MBs by a single fractionation procedure, suggesting that they are periplasmic-like components. To demonstrate this, we cloned a gene ( phoA) from T. thermophilus HB8 encoding a signal peptide-wearing alkaline phosphatase (AP), and engineered it to be overexpressed in the mutant from a shuttle vector. Most of the AP activity (>80%) was found as a soluble component of the MBs' intercellular fraction. All these data indicate that Thermus thermophilus actually has a periplasmic space which is functionally similar to that of Proteobacteria. The potential application of the HB8(Delta)UTR1 mutant for the overexpression of periplasmic thermophilic proteins is discussed.

Published

2002

27. Two nitrate/nitrite transporters are encoded within the mobilizable plasmid for nitrate respiration of Thermus thermophilus HB8.

Author

Ramírez S, Moreno R, Zafra O, Castán P, Vallés C, and Berenguer J

Subjects

Bacterial Proteins metabolism, Biological Transport genetics, Carrier Proteins metabolism, Catalase genetics, Molecular Sequence Data, Mutagenesis, Insertional, Nitrate Reductase, Nitrate Reductases genetics, Nitrate Transporters, Operon, Oxygen Consumption, Restriction Mapping, Thermus thermophilus metabolism, Anion Transport Proteins, Bacterial Proteins genetics, Carrier Proteins genetics, Nitrates metabolism, Nitrites metabolism, Thermus thermophilus genetics

Abstract

Thermus thermophilus HB8 can grow anaerobically by using a membrane-bound nitrate reductase to catalyze the reduction of nitrate as a final electron acceptor in respiration. In contrast to other denitrifiers, the nitrite produced does not continue the reduction pathway but accumulates in the growth medium after its active extrusion from the cell. We describe the presence of two genes, narK1 and narK2, downstream of the nitrate reductase-encoding gene cluster (nar) that code for two homologues to the major facilitator superfamily of transporters. The sequences of NarK1 and NarK2 are 30% identical to each other, but whereas NarK1 clusters in an average-distance tree with putative nitrate transporters, NarK2 does so with putative nitrite exporters. To analyze whether this differential clustering was actually related to functional differences, we isolated derivatives with mutations of one or both genes. Analysis revealed that single mutations had minor effects on growth by nitrate respiration, whereas a double narK1 narK2 mutation abolished this capability. Further analysis allowed us to confirm that the double mutant is completely unable to excrete nitrite, while single mutants have a limitation in the excretion rates compared with the wild type. These data allow us to propose that both proteins are implicated in the transport of nitrate and nitrite, probably acting as nitrate/nitrite antiporters. The possible differential roles of these proteins in vivo are discussed.

Published

2000