824 research outputs found
Features associated to woody hosts in the bacterial pathogen of olive plants Pseudomonas savastanoi pv. savastanoi
The causal agent of olive knot disease, Pseudomonas savastanoi pv. savastanoi, belongs to the Pseudomonas syringae complex, a bacterial group causing diseases in a broad variety of both woody and herbaceous plant species. Here we summarize our results regarding a set of P. savastanoi pv. savastanoi features exclusively found in the genomes of bacteria from the P. syringae complex isolated from woody hosts. Comparative genomics and evolutionary studies allowed us to identify a 15 kb genomic island (WHOP, from woody host and Pseudomonas), carrying a set of genes involved in degradation of phenolic compounds and exclusively found in bacterial pathogens of woody hosts. Deletion of several WHOP-encoded genes in Pseudomonas savastanoi pv. savastanoi NCPPB 3335 revealed that they play a role in the virulence of the strain in woody olive plants but not in in vitro-grown (nonwoody) plants. In addition, several type III secretion system effectors belonging to the HopAF, HopAO and HopBL families were shown to be clustered across the P. syringae complex according to the woody/herbaceous nature of their host of isolation. Further functional analyses of these virulence factors are needed to facilitate the design of novel strategies directed to control bacterial pathogens of woody hosts.Universidad de Málaga. Campus de Excelencia Internacional AndalucÃa Tech
Assessment of the structures contribution (crystalline and mesophases) and mechanical properties of polycaprolactone/pluronic blends
Films of biodegradable blends of polycaprolactone (PCL) and Pluronics F68 and F127 were manufactured by an
industrial thermo-mechanical process to be applied as potential delivery systems. The effects of Pluronics on the
structure (mesophase organization), and thermal and mechanical properties of polycaprolactone were investigated
using differential scanning calorimetry (DSC), small-angle X-ray scattering (SAXS), X-ray diffraction (XRD),
polarized optical microscopy (POM) and tensile mechanical tests. The addition of Pluronics affected the crystallization
process by changing the relative amounts of crystalline, amorphous, and meso- (condis + plastic)
phases. The melting transition and XRD profiles were deconvoluted to assess the individual contribution of the
different crystal morphologies. Furthermore, it was found that the mechanical properties of the blends depended
on the ratio and type of Pluronic. Thus, Pluronic F127 showed a larger mesophase content than its F68 counterpart
with PCL and blends with enhanced ductilityFunding for open access charge was provided by Universidad de Huelva / CBUA. The authors gratefully acknowledge the financial support
Primer registro de Achimenes admirabilis (Gesneriaceae) para la flora de Tabasco, México
ResumenSe da a conocer un nuevo registro de Achimenes admirabilis para México. Esta especie solo se habÃa registrado en los estados de Oaxaca y Veracruz. Colectas recientes en el área municipal de Tenosique, extienden el intervalo de distribución de la especie al estado de Tabasco.AbstractA new record of Achimenes admirabilis is reported for Mexico. This species had only been reported in the states of Oaxaca and Veracruz. Recent collections in the municipality of Tenosique, extend its range to the state of Tabasco
Chronodisruption: A poorly recognized feature of CKD
Multiple physiological variables change over time in a predictable and repetitive manner,
guided by molecular clocks that respond to external and internal clues and are coordinated by a
central clock. The kidney is the site of one of the most active peripheral clocks. Biological rhythms,
of which the best known are circadian rhythms, are required for normal physiology of the kidneys
and other organs. Chronodisruption refers to the chronic disruption of circadian rhythms leading
to disease. While there is evidence that circadian rhythms may be altered in kidney disease and
that altered circadian rhythms may accelerate chronic kidney disease (CKD) progression, there is no
comprehensive review on chronodisruption and chronodisruptors in CKD and its manifestations.
Indeed, the term chronodisruption has been rarely applied to CKD despite chronodisruptors being
potential therapeutic targets in CKD patients. We now discuss evidence for chronodisruption in CKD
and the impact of chronodisruption on CKD manifestations, identify potential chronodisruptors,
some of them uremic toxins, and their therapeutic implications, and discuss current unanswered questions on this topicThis work was funded by FIS CP14/00133, PI16/02057, PI18/01366, PI19/00588, PI19/00815, DTS18/00032,
ERA-PerMed-JTC2018 (KIDNEY ATTACK AC18/00064 and PERSTIGAN AC18/00071, National Institute of
Health (2R01AI063331), ISCIII-RETIC REDinREN RD016/0009 Fondos FEDER, FRIAT, Sociedad Española de
NefrologÃa, Comunidad de Madrid B2017/BMD-3686 CIFRA2-CM, Miguel Servet MS14/00133 to MDSN and ABS.
IIS-Fundacion Jimenez Diaz Biobank, part of the Spanish Biobanks Platform (PT17/0015/0006). The APC was funded by PI19/0081
Clinical proteomics in kidney disease as an exponential technology: Heading towards the disruptive phase
Exponential technologies double in power or processing speed every year, whereas their cost halves. Deception and disruption are two key stages in the development of exponential technologies. Deception occurs when, after initial introduction, technologies are dismissed as irrelevant, while they continue to progress, perhaps not as fast or with so many immediate practical applications as initially thought. Twenty years after the first publications, clinical proteomics is still not available in most hospitals and some clinicians have felt deception at unfulfilled promises. However, there are indications that clinical proteomics may be entering the disruptive phase, where, once refined, technologies disrupt established industries or procedures. In this regard, recent manuscripts in CKJ illustrate how proteomics is entering the clinical realm, with applications ranging from the identification of amyloid proteins in the pathology lab, to a new generation of urinary biomarkers for chronic kidney disease (CKD) assessment and outcome prediction. Indeed, one such panel of urinary peptidomics biomarkers, CKD273, recently received a Food and Drug Administration letter of support, the first ever in the CKD field. In addition, a must-read resource providing information on kidney disease-related proteomics and systems biology databases and how to access and use them in clinical decision-making was also recently published in CKJ.Grant support was received from: ISCIII and FEDER funds PI13/00047; EUTOX, CP12/03262, CP14/00133, PI15/00298, PI14/00386, PI15/01460, PI16/01900, PI16/02057; Diabetes Cancer Connect PIE13/00051; Sociedad Española de Nefrologia; FRIAT; and ISCIII-RETIC REDinREN RD016/009. Salary support was received from: ISCIII Miguel Servet to A.B.S., A.M.R. and M.D.S.-N.; Joan Rodes to B.F.-F; and Programa Intensificación Actividad Investigadora (ISCIII/Agencia LaÃn-Entralgo/CM) to A.O
Gain-of-function TLR7 and loss-of-function A20 gene variants identify a novel pathway for Mendelian lupus and lupus nephritis
Systemic lupus erythematosus (SLE) is a chronic and inflammatory autoimmune disease of unknown origin that may cause kidney disease, i.e. lupus nephritis (LN). Within a wider trend towards an expanding field of genetic causes of kidney disease, two recent reports have emphasized the role of Mendelian autoimmune disorders in causing LN both in children and in young adults. Loss-of-function (LOF) variants of tumor necrosis factor alpha-induced protein 3 (TNFAIP3) and gain of function (GOF) variants of Toll-like receptor 7 (TLR7) cause SLE and LN, respectively. Interestingly, both genes regulate the same signaling route, as A20, the protein encoded by TNFAIP3, inhibits nuclear factor KB (NF-KB) activation while TLR7 promoted NF-KB activation. Moreover, TNFAIP3 and TLR7 variants are relatively frequent, potentially contributing to polygenic risk for LN. Finally, they both may be expressed by kidney cells, potentially contributing to the severity of kidney injury in persons who have already developed autoimmunity. The fact that both genes regulate the same pathway may lead to novel therapeutic approaches targeting the shared molecular pathwayFIS/Fondos FEDER (PI18/01366, PI18/01133, PI19/00588, PI19/00815, DTS18/00032), ERA-PerMed-JTC2018 (KIDNEY ATTACK AC18/00064 and PERSTIGAN AC18/00071, ISCIII-RETIC REDinREN RD016/0009), Sociedad Española de NefrologÃa, FRIAT, Comunidad de Madrid en Biomedicina B2017/BMD-3686 CIFRA2-CM, Instituto de Salud Carlos III (ISCIII) RICORS program to RICORS2040 (RD21/0005/0001) and SPACKDc PMP21/00109, FEDER fund
Excitons, trions and Rydberg states in monolayer MoS2 revealed by low temperature photocurrent spectroscopy
We investigate excitonic transitions in a h-BN encapsulated monolayer
phototransistor by photocurrent spectroscopy at cryogenic
temperature (T = 5 K). The spectra presents excitonic peaks with linewidths as
low as 8 meV, one order of magnitude lower than in earlier photocurrent
spectroscopy measurements. We observe four spectral features corresponding to
the ground states of neutral excitons (
and ) and charged trions
( and ) as well as up to eight
additional spectral lines at energies above the
transition, which we attribute to the
Rydberg series of excited states of and
. The relative intensities of the different spectral
features can be tuned by the applied gate and drain-source voltages, with
trions and Rydberg excited states becoming more prominent at large gate
voltages. Using an effective-mass theory for excitons in two-dimensional
transition-metal dichalcogenides we are able to accurately fit the measured
spectral lines and unambiguously associate them with their corresponding
Rydberg states. The fit also allows us to determine the quasiparticle bandgap
and spin-orbit splitting of monolayer , as well as the exciton
binding energies of and
Effects of a 48-Day Home Quarantine during the Covid-19 Pandemic on the First Outdoor Running Session among Recreational Runners in Spain
[Abstract] COVID-19-induced quarantine may lead to deleterious effects on health status as well as to impaired performance and increased injury risk when re-starting training after lockdown. We investigated the physical activity (PA) habits of recreational runners in Spain during a 48-day home quarantine during the COVID-19 pandemic and the characteristics of the first outdoor running session after confinement. A cross-sectional study, including a self-reported running questionnaire completed after the first outdoor running session after quarantine, was performed. Three hundred recreational runners (74% males; 60% 18–40 years old; most typical running experience >3 years, 10– 30 km weekly running distance distributed in 3–4 sessions) were considered for analysis. Advanced runners ran, at least, 4 days/week and participated in running events. They performed significantly longer and more non-supervised weekly training sessions during confinement (p < 0.01 for both) than novice and amateur runners. Most runners performed their first outdoor running session on asphalt (65.3%) and ran 5 to 10 km (61%) at a pace above 5 min/km (60%), reporting no pain before (77%), during (64%), and 24 h after (76%) the session. Advanced runners performed a significantly longer running session, at a higher pace, and covered a greater distance (p < 0.01 for all) than novice and amateur runners, while enjoyment and motivation tended to be significantly higher when runners’ level increased (p < 0.05). Higher training levels prior to and during confinement may lower the collateral effects (e.g., detraining, injury risk) of home quarantine when runners return to previous PA levels
Behavior of vine varieties resistant to fungal diseases in the somontano region
The vine is highly susceptible to numerous fungal diseases, the incidence and severity of which are increasing because of climate change. To fight them, large amounts of phytosanitary products are generally used, although they entail important economic and environmental costs. The new fungus resistant vine varieties (PIWI) constitute one of the most active lines of research on plant material in viticulture and are regarded as a viable solution to respond to the requirements of European Directive 2009/128/EC. In the present work, the evolution and impact of the three main fungal diseases (powdery mildew, downy mildew and botrytis bunch rot) were monitored in plots in the Somontano region (Huesca, Spain), comparing three PIWI varieties (Sauvignon Kretos, Souvignier gris and Muscaris) with a susceptible control variety (Sauvignon blanc) in real field growing conditions over three successive years (2016–2018). The main ampelographic characters of each variety were studied and a weekly follow-up was carried out to track the development of each disease, relating it to climatic variables. Regardless of the climatic conditions (one of the growing seasons was rainy and the other two corresponded to dry years, with differences in the distribution of rainfall), the three PIWI varieties hardly presented any symptoms, demonstrating a high resistance to downy mildew and powdery mildew and even to botrytis. Principal component analysis results pointed to a differential behavior versus the control and treated Sauvignon blanc plants in terms of disease resistance. Based on production results, despite the youth of the plantation, the excellent potential of Sauvignon Kretos variety was observed. However, from the analysis of the quality of wine obtained in microvinifications from these fungus resistant varieties in the second and third year, the one obtained from Muscaris seemed to have the best organoleptic properties. Apart from environmental considerations, given that these fungus resistant varieties can significantly contribute to the sustainability of wineries, they may also respond to the demand of consumers who want zero-pesticide products or of the supporters of ecological products adjusted to European regulations
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