1,447 research outputs found
Force-induced misfolding in RNA
RNA folding is a kinetic process governed by the competition of a large
number of structures stabilized by the transient formation of base pairs that
may induce complex folding pathways and the formation of misfolded structures.
Despite of its importance in modern biophysics, the current understanding of
RNA folding kinetics is limited by the complex interplay between the weak
base-pair interactions that stabilize the native structure and the disordering
effect of thermal forces. The possibility of mechanically pulling individual
molecules offers a new perspective to understand the folding of nucleic acids.
Here we investigate the folding and misfolding mechanism in RNA secondary
structures pulled by mechanical forces. We introduce a model based on the
identification of the minimal set of structures that reproduce the patterns of
force-extension curves obtained in single molecule experiments. The model
requires only two fitting parameters: the attempt frequency at the level of
individual base pairs and a parameter associated to a free energy correction
that accounts for the configurational entropy of an exponentially large number
of neglected secondary structures. We apply the model to interpret results
recently obtained in pulling experiments in the three-helix junction S15 RNA
molecule (RNAS15). We show that RNAS15 undergoes force-induced misfolding where
force favors the formation of a stable non-native hairpin. The model reproduces
the pattern of unfolding and refolding force-extension curves, the distribution
of breakage forces and the misfolding probability obtained in the experiments.Comment: 28 pages, 11 figure
Unifying thermodynamic and kinetic descriptions of single-molecule processes: RNA unfolding under tension
We use mesoscopic non-equilibrium thermodynamics theory to describe RNA
unfolding under tension. The theory introduces reaction coordinates,
characterizing a continuum of states for each bond in the molecule. The
unfolding considered is so slow that one can assume local equilibrium in the
space of the reaction coordinates. In the quasi-stationary limit of high
sequential barriers, our theory yields the master equation of a recently
proposed sequential-step model. Non-linear switching kinetics is found between
open and closed states. Our theory unifies the thermodynamic and kinetic
descriptions and offers a systematic procedure to characterize the dynamics of
the unfolding processComment: 13 pages, 3 figure
A two-state kinetic model for the unfolding of single molecules by mechanical force
We investigate the work dissipated during the irreversible unfolding of
single molecules by mechanical force, using the simplest model necessary to
represent experimental data. The model consists of two levels (folded and
unfolded states) separated by an intermediate barrier. We compute the
probability distribution for the dissipated work and give analytical
expressions for the average and variance of the distribution. To first order,
the amount of dissipated work is directly proportional to the rate of
application of force (the loading rate), and to the relaxation time of the
molecule. The model yields estimates for parameters that characterize the
unfolding kinetics under force in agreement with those obtained in recent
experimental results (Liphardt, J., et al. (2002) {\em Science}, {\bf 296}
1832-1835). We obtain a general equation for the minimum number of repeated
experiments needed to obtain an equilibrium free energy, to within , from
non-equilibrium experiments using the Jarzynski formula. The number of
irreversible experiments grows exponentially with the ratio of the average
dissipated work, \bar{\Wdis}, to .}Comment: PDF file, 5 page
Use of Chemical Modification To Elucidate RNA Folding Pathways
As discussed in this overview, chemical modification is sensitive to the accessibility of a nucleotide to the solvent, and many nucleotides become less accessible as an RNA folds into its structured form. Chemical modification reagents are therefore suitable for following RNA folding, and can be used to study the kinetics of structure formation on time scales ranging from minutes to hours.Peer Reviewedhttps://deepblue.lib.umich.edu/bitstream/2027.42/143596/1/cpnc1109.pd
Use of analysis and processing of digital images for evaluation and control of animal behavior in hot climates
The world production of meats is mainly concentrated in the countries with a hot climate. Among these countries,
Brazil, considered "world's breadbasket", is located in the intertropical zone, with hot climates and presents lower thermal
amplitude. Brazilian poultry is a leader in the production and export of broilers. Brazil has the second largest cattle herd in the
world, has the largest commercial herd besides being the largest exporter of beef. Brazilian swine breeding, among the most
advanced production chains in the world, occupy the position of fourth largest producer of pork in the world. Projections for
Brazil's meat production sector indicate strong growth in the coming years, with countries in hot climates that will continue to
sustain future growth in world meat production, ensuring food security in many countries. One of the factors responsible for the
success or failure of animal production is the environment, defined by the sum of all physical and biological factors that affect
animals. In these regions of hot climates, climatic factors are among the main limiting factors to the development of animal
production, which may compromise animal welfare and productivity indices. Behavioral information can aid in the analysis of
problems arising from environmental conditions unfavorable to animals, helping both decision making and the use of different
environmental conditioning systems. The introduction of technification in the animal behavior evaluation processes, through the
use of video cameras and image processing programs, allowed a better interpretation of the behavioral responses, quickly,
accurately and non-invasively, gradually being used with greater frequency in the animal production sectors. The study of animal
behavior assumes an important role in animal production, since, to rationalize the breeding methods, management, feeding and
facilities techniques have been developed that interfere with animal behavior. In this context, the use of digital image analysis
techniques, where the animals themselves are used as biosensors in response to environmental conditions, contributes to the
analysis of animal behavior, and consequently also to the assessment of the internal environment of the production in hot weather.
Keywords: animal production, animal welfare, information technolog
Distribution of dwell times of a ribosome: effects of infidelity, kinetic proofreading and ribosome crowding
Ribosome is a molecular machine that polymerizes a protein where the sequence
of the amino acid residues, the monomers of the protein, is dictated by the
sequence of codons (triplets of nucleotides) on a messenger RNA (mRNA) that
serves as the template. The ribosome is a molecular motor that utilizes the
template mRNA strand also as the track. Thus, in each step the ribosome moves
forward by one codon and, simultaneously, elongates the protein by one amino
acid. We present a theoretical model that captures most of the main steps in
the mechano-chemical cycle of a ribosome. The stochastic movement of the
ribosome consists of an alternating sequence of pause and translocation; the
sum of the durations of a pause and the following translocation is the time of
dwell of the ribosome at the corresponding codon. We derive the analytical
expression for the distribution of the dwell times of a ribosome in our model.
Whereever experimental data are available, our theoretical predictions are
consistent with those results. We suggest appropriate experiments to test the
new predictions of our model, particularly, the effects of the quality control
mechanism of the ribosome and that of their crowding on the mRNA track.Comment: This is an author-created, un-copyedited version of an article
accepted for publication in Physical Biology. IOP Publishing Ltd is not
responsible for any errors or omissions in this version of the manuscript or
any version derived from it. The definitive publisher authenticated version
is available online at DOI:10.1088/1478-3975/8/2/02600
TRACE ELEMENTS IN SHEEP AND GOATS REPRODUCTION: A REVIEW
The reproduction of small ruminants like goats and sheep managed under extensive range grazing conditions can be affected by nutrients availability and especially by the mineral content of the forages resources on the rangeland. It has been particularly demonstrated that trace elements can have equally, beneficial or detrimental effects, depending on its balance, on reproductive functions in small ruminants. Trace elements as copper, molybdenum, selenium and zinc play key role on the metabolism of carbohydrates, proteins and lipids; however, the mode of action by which these elements affect reproduction in sheep and goats are not completely understood, due to the complexity in the mode of action of the metallobiomolecules and the neuro-hormonal relationship. In this way, their absence or presence of these minerals in several organs, fluids, or tissues of the reproductive tract have allowed obtaining information on the metabolism and the role of these elements on reproduction in sheep and goats. On this regard, the objective of this document is to review the relationships and effects of some trace elements, on reproductive events in sheep and goats
Diagnostic Mock-Up as a Surgical Reduction Guide for Crown Lengthening: Technique Description and Case Report.
Background and Objectives: The report describes a technique using a diagnostic mock-up as a crown-lengthening surgical guide to improve the gingival architecture. Materials and Methods: The patient's primary concern was improving her smile due to her "gummy smile" and short clinical crowns. After clinical evaluation, surgical crown lengthening accompanied by maxillary central full-coverage single-unit prostheses and lateral incisor veneers was recommended. The diagnostic mock-up was placed in the patient's maxillary anterior region and used as a soft tissue reduction guide for the gingivectomy. Once the planned gingival architecture was achieved, a flap was reflected to proceed with ostectomy in order to obtain an appropriate alveolar bone crest level using the overlay. After six months, all-ceramic crowns and porcelain veneers were provided as permanent restorations. Results: A diagnostic mock-up fabricated with a putty guide directly from the diagnostic wax-up can be an adequate surgical guide for crown-lengthening procedures. The diagnostic wax-up was used to fabricate the diagnostic mock-up. These results suggested that it can be used as a crown-lengthening surgical guide to modify the gingival architecture. Several advantages of the overlay used in the aesthetic complex case include: (1) providing a preview of potential restorative outcomes, (2) allowing for the appropriate positioning of gingival margins and the desired alveolar bone crest level for the crown-lengthening procedure, and (3) serving as a provisional restoration after surgery. Conclusions: The use of a diagnostic mock-up, which was based on a diagnostic wax-up, as the surgical guide resulted in successful crown lengthening and provisional restorations. Thus, a diagnostic overlay can be a viable option as a surgical guide for crown lengthening
Comparative analysis of performance by cows confined in different typologies of compost barns
The compost barn system was designed to be a sustainable alternative housing system
for dairy cows. In order to help producers in the region to choose the best type of facility from
the point of view of the milk production of the animals, this study compared the productivity of
cows confined in an open composting barn with natural ventilation and in a closed composting
barn with negative pressure ventilation and evaporative cooling panels. The temperature and
relative humidity of the air were monitored, as well as the milk production of the animals housed
in the facilities, and THI (Temperature and Humidity Index) were calculated. During the trials,
the maximum daily temperatures of the air reached values around 27 °C and the THI remained
within the normal range of up to 70. The average productivity remained in the general pattern
described in the literature from 23 to 44 kg of milk cow1 day-1
, with lower rates obtained in the
closed house. As the variation of the index used to describe the internal environment was not
significant, it can be inferred that climatic elements as temperature and air humidity, under the
conditions analyzed were not the main factors influencing the productivity rates of dairy cattle.
In conclusion, under the analysed conditions the use of a closed barn with negative pressure
ventilation is hardly justified as a plant that favoured the productivity of the confined cows
An Innovative 3D Printed Tooth Reduction Guide for Precise Dental Ceramic Veneers.
Tooth reduction guides allow clinicians to obtain the ideal space required for ceramic restorations. This case report describes a novel design (CAD) for an additive computer-aided manufactured (a-CAM) tooth reduction guide with channels that permitted access for the preparation and evaluation of the reduction with the same guide. The guide features innovative vertical and horizontal channels that permit comprehensive access for preparation and evaluation of the reduction with a periodontal probe, ensuring uniform tooth reduction and avoiding overpreparation. This approach was successfully applied to a female patient with non-carious lesions and white spot lesions, resulting in minimally invasive tooth preparations and hand-crafted laminate veneer restorations that met the patient's aesthetic demands while preserving tooth structure. Compared to traditional silicone reduction guides, this novel design offers greater flexibility, enabling clinicians to evaluate tooth reduction in all directions and providing a more comprehensive assessment. Overall, this 3D printed tooth reduction guide represents a significant advancement in dental restoration technology, offering clinicians a useful tool for achieving optimal outcomes with minimal tooth reduction. Future work is warranted to compare tooth reductions and preparation time for this guide to other 3D printed guides
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