Your search keyword '"Arayata, Charles J."' showing total 10 results

1. Burly1 is a mouse QTL for lean body mass that maps to a 0.8-Mb region of chromosome 2

Author

Lin, Cailu, Fesi, Brad D., Marquis, Michael, Bosak, Natalia P., Lysenko, Anna, Koshnevisan, Mohammed Amin, Duke, Fujiko F., Theodorides, Maria L., Nelson, Theodore M., McDaniel, Amanda H., Avigdor, Mauricio, Arayata, Charles J., Shaw, Lauren, Bachmanov, Alexander A., and Reed, Danielle R.

Published

2018

2. Transport features predict if a molecule is odorous.

Author

Mayhew, Emily J., Arayata, Charles J., Gerkin, Richard C., Lee, Brian K., Magill, Jonathan M., Snyder, Lindsey L., Little, Kelsie A., Chung Wen Yu, and Mainland, Joel D.

Subjects

*OLFACTORY receptors, *SMALL molecules, *MOLECULES, *VISIBLE spectra, *SMELL

Abstract

In studies of vision and audition, stimuli can be chosen to span the visible or audible spectrum; in olfaction, the axes and boundaries defining the analogous odorous space are unknown. As a result, the population of olfactory space is likewise unknown, and anecdotal estimates of 10,000 odorants have endured. The journey a molecule must take to reach olfactory receptors (ORs) and produce an odor percept suggests some chemical criteria for odorants: a molecule must 1) be volatile enough to enter the air phase, 2) be nonvolatile and hydrophilic enough to sorb into the mucous layer coating the olfactory epithelium, 3) be hydrophobic enough to enter an OR binding pocket, and 4) activate at least one OR. Here, we develop a simple and interpretable quantitative model that reliably predicts whether a molecule is odorous or odorless based solely on the first three criteria. Applying our model to a database of all possible small organic molecules, we estimate that at least 40 billion possible compounds are odorous, six orders of magnitude larger than current estimates of 10,000. With this model in hand, we can define the boundaries of olfactory space in terms of molecular volatility and hydrophobicity, enabling representative sampling of olfactory stimulus space. [ABSTRACT FROM AUTHOR]

Published

2022

3. Tissue-Dependent Expression of Bitter Receptor TAS2R38 mRNA.

Author

Douglas, Jennifer E, Lin, Cailu, Mansfield, Corrine J, Arayata, Charles J, Cowart, Beverly J, Spielman, Andrew I, Adappa, Nithin D, Palmer, James N, Cohen, Noam A, and Reed, Danielle R

Abstract

TAS2R38 is a human bitter receptor gene with a common but inactive allele; people homozygous for the inactive form cannot perceive low concentrations of certain bitter compounds. The frequency of the inactive and active forms of this receptor is nearly equal in many human populations, and heterozygotes with 1 copy of the active form and 1 copy of the inactive form have the most common diplotype. However, even though they have the same genotype, heterozygotes differ markedly in their perception of bitterness, perhaps in part because of differences in TAS2R38 mRNA expression. Other tissues express this receptor too, including the nasal sinuses, where it contributes to pathogen defense. We, therefore, wondered whether heterozygous people had a similar wide range of TAS2R38 mRNA in sinonasal tissue and whether those with higher TAS2R38 mRNA expression in taste tissue were similarly high expressers in nasal tissue. To that end, we measured gene expression by quantitative PCR in taste and sinonasal tissue and found that expression abundance in one tissue was not related to the other. We confirmed the independence of expression in other tissue pairs expressing TAS2R38 mRNA, such as pancreas and small intestine, using autopsy data from the Genotype-Tissue Expression project (although people with high expression of TAS2R38 mRNA in colon also tended to have higher expression in the small intestine). Thus, taste tissue TAS2R38 mRNA expression among heterozygotes is unlikely to predict expression in other tissues, perhaps reflecting tissue-dependent function, and hence regulation, of this protein. [ABSTRACT FROM AUTHOR]

Published

2019

4. Behind bars: using perspective-taking to improve behavior of motorists towards cyclists

Author

Arayata, Charles J.

Abstract

This study's purpose was to test two possible interventions framed within the Theory of Planned Behavior (Ajzen, 1991) that may improve motorists' attitudes towards cyclists, as well as motorists' intentions to improve their on-road behavior around cyclists. A 2x2 factorial design was used, with participants randomly assigned to either read commercial vehicle laws or bicycle laws, and either watch a traffic camera video, or a first-person bicyclist crash video. Participants then completed a measure of their attitudes and intentions during the lab session and again approximately two weeks later. It was expected that participants who read the bicycle legislation information and also watched the crash video would show the most improved attitudes and intentions to behave after the lab session relative to control; however, no significant effect of either manipulation was found. Further refinements would include a more multi-faceted approach to the Theory of Planned Behavior., (M.A.) -- Towson University, 2013.

Published

2013

5. Adiposity QTL Adip20 decomposes into at least four loci when dissected using congenic strains.

Author

Lin, Cailu, Fesi, Brad D., Marquis, Michael, Bosak, Natalia P., Lysenko, Anna, Koshnevisan, Mohammed Amin, Duke, Fujiko F., Theodorides, Maria L., Nelson, Theodore M., McDaniel, Amanda H., Avigdor, Mauricio, Arayata, Charles J., Shaw, Lauren, Bachmanov, Alexander A., and Reed, Danielle R.

Subjects

OBESITY, LOCUS (Genetics), CHROMOSOMES, LABORATORY mice, BODY mass index

Abstract

An average mouse in midlife weighs between 25 and 30 g, with about a gram of tissue in the largest adipose depot (gonadal), and the weight of this depot differs between inbred strains. Specifically, C57BL/6ByJ mice have heavier gonadal depots on average than do 129P3/J mice. To understand the genetic contributions to this trait, we mapped several quantitative trait loci (QTLs) for gonadal depot weight in an F2 intercross population. Our goal here was to fine-map one of these QTLs, Adip20 (formerly Adip5), on mouse chromosome 9. To that end, we analyzed the weight of the gonadal adipose depot from newly created congenic strains. Results from the sequential comparison method indicated at least four rather than one QTL; two of the QTLs were less than 0.5 Mb apart, with opposing directions of allelic effect. Different types of evidence (missense and regulatory genetic variation, human adiposity/body mass index orthologues, and differential gene expression) implicated numerous candidate genes from the four QTL regions. These results highlight the value of mouse congenic strains and the value of this sequential method to dissect challenging genetic architecture. [ABSTRACT FROM AUTHOR]

Published

2017

6. Body Composition QTLs Identified in Intercross Populations Are Reproducible in Consomic Mouse Strains.

Author

Lin, Cailu, Fesi, Brad D., Marquis, Michael, Bosak, Natalia P., Theodorides, Maria L., Avigdor, Mauricio, McDaniel, Amanda H., Duke, Fujiko F., Lysenko, Anna, Khoshnevisan, Amin, Gantick, Brian R., Arayata, Charles J., Nelson, Theodore M., Bachmanov, Alexander A., and Reed, Danielle R.

Subjects

BODY composition, LABORATORY mice, BIOCHEMISTRY, GENOTYPES, CHROMOSOMES

Abstract

Genetic variation contributes to individual differences in obesity, but defining the exact relationships between naturally occurring genotypes and their effects on fatness remains elusive. As a step toward positional cloning of previously identified body composition quantitative trait loci (QTLs) from F2 crosses of mice from the C57BL/6ByJ and 129P3/J inbred strains, we sought to recapture them on a homogenous genetic background of consomic (chromosome substitution) strains. Male and female mice from reciprocal consomic strains originating from the C57BL/6ByJ and 129P3/J strains were bred and measured for body weight, length, and adiposity. Chromosomes 2, 7, and 9 were selected for substitution because previous F2 intercross studies revealed body composition QTLs on these chromosomes. We considered a QTL confirmed if one or both sexes of one or both reciprocal consomic strains differed significantly from the host strain in the expected direction after correction for multiple testing. Using these criteria, we confirmed two of two QTLs for body weight (Bwq5-6), three of three QTLs for body length (Bdln3-5), and three of three QTLs for adiposity (Adip20, Adip26 and Adip27). Overall, this study shows that despite the biological complexity of body size and composition, most QTLs for these traits are preserved when transferred to consomic strains; in addition, studying reciprocal consomic strains of both sexes is useful in assessing the robustness of a particular QTL. [ABSTRACT FROM AUTHOR]

Published

2015

7. Deconstructing the mouse olfactory percept through an ethological atlas.

Author

Manoel, Diogo, Makhlouf, Melanie, Arayata, Charles J., Sathappan, Abbirami, Da'as, Sahar, Abdelrahman, Doua, Selvaraj, Senthil, Hasnah, Reem, Mainland, Joel D., Gerkin, Richard C., and Saraiva, Luis R.

Subjects

*OLFACTORY perception, *MICE, *MACHINE learning, *COMPARATIVE studies, *SPECIES

Abstract

Odor perception in non-humans is poorly understood. Here, we generated the most comprehensive mouse olfactory ethological atlas to date, consisting of behavioral responses to a diverse panel of 73 odorants, including 12 at multiple concentrations. These data revealed that mouse behavior is incredibly diverse and changes in response to odorant identity and concentration. Using only behavioral responses observed in other mice, we could predict which of two odorants was presented to a held-out mouse 82% of the time. Considering all 73 possible odorants, we could uniquely identify the target odorant from behavior on the first try 20% of the time and 46% within five attempts. Although mouse behavior is difficult to predict from human perception, they share three fundamental properties: first, odor valence parameters explained the highest variance of olfactory perception. Second, physicochemical properties of odorants can be used to predict the olfactory percept. Third, odorant concentration quantitatively and qualitatively impacts olfactory perception. These results increase our understanding of mouse olfactory behavior and how it compares to human odor perception and provide a template for future comparative studies of olfactory percepts among species. [Display omitted] • We produced a novel atlas of mouse odor-guided behavior for 73 molecules • Odorant structure and mouse behavior are mutually predictive in novel mice • Odor valence explains most behavioral variance and covariance with human perception • Concentration qualitatively and quantitatively impacts mouse olfactory behavior Manoel et al. score 18 behaviors in 525 mice across 98 odorant conditions to generate a murine olfactory ethological atlas, which they use to deconstruct mouse olfactory behavior, predict it from odorant structure, evaluate its major factors, and compare it to human perception. [ABSTRACT FROM AUTHOR]

Published

2021

8. Sensory nutrition: The role of taste in the reviews of commercial food products.

Author

Reed DR, Mainland JD, and Arayata CJ

Subjects

Animals, Food Industry, Food Preferences, Humans, Consumer Behavior, Food, Nutritional Physiological Phenomena physiology, Sensation physiology, Taste physiology

Abstract

Many factors play a role in choosing what to eat or drink. We explored the role of sensation to explain these differences, drawing on consumer reviews for commercially available food products sold through an online retailer. We analyzed 393,568 unique food product reviews from Amazon customers with a total of 256,043 reviewers rating 67,553 products. Taste-associated words were mentioned more than words associated with price, food texture, customer service, nutrition, smell, or those referring to the trigeminal senses, e.g., "spicy". We computed the overall number of reviews that mentioned taste qualities: the word taste was mentioned in over 30% of the reviews (N = 142,768), followed by sweet (10.7%, N = 42,315), bitter (2.9%, N = 11,424), sour (2.1%, N = 8252) and salty (1.4%, N = 5688). We identified 38 phrases used to describe the evaluation of sweetness, finding that 'too sweet' was used in nearly 0.8% of the reviews and oversweetness was mentioned over 25 times more often than under-sweetness. We then focused on 'polarizing' products, those that elicited a wide difference of opinion (as measured by the ranges of the product ratings). Using the products that had more than 50 reviews, we identified the top 10 most polarizing foods and provide representative comments about the polarized taste experience of consumers. Overall, these results support the primacy of taste in real-world food ratings and individualized taste experience, such as whether a product is 'too sweet'. Analysis of consumer review data sets can provide information about purchasing decisions and customer sensory responses to particular commercially available products and represents a promising methodology for the emerging field of sensory nutrition., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

9. A transcriptomic atlas of mammalian olfactory mucosae reveals an evolutionary influence on food odor detection in humans.

Author

Saraiva LR, Riveros-McKay F, Mezzavilla M, Abou-Moussa EH, Arayata CJ, Makhlouf M, Trimmer C, Ibarra-Soria X, Khan M, Van Gerven L, Jorissen M, Gibbs M, O'Flynn C, McGrane S, Mombaerts P, Marioni JC, Mainland JD, and Logan DW

Subjects

Animals, Gene Expression Profiling, Humans, Ligands, Male, Olfactory Receptor Neurons metabolism, Receptors, Odorant genetics, Receptors, Odorant metabolism, Biological Evolution, Food, Mammals genetics, Odorants, Olfactory Mucosa metabolism, Transcriptome genetics

Abstract

The mammalian olfactory system displays species-specific adaptations to different ecological niches. To investigate the evolutionary dynamics of olfactory sensory neuron (OSN) subtypes across mammalian evolution, we applied RNA sequencing of whole olfactory mucosa samples from mouse, rat, dog, marmoset, macaque, and human. We find that OSN subtypes, representative of all known mouse chemosensory receptor gene families, are present in all analyzed species. Further, we show that OSN subtypes expressing canonical olfactory receptors are distributed across a large dynamic range and that homologous subtypes can be either highly abundant across all species or species/order specific. Highly abundant mouse and human OSN subtypes detect odorants with similar sensory profiles and sense ecologically relevant odorants, such as mouse semiochemicals or human key food odorants. Together, our results allow for a better understanding of the evolution of mammalian olfaction in mammals and provide insights into the possible functions of highly abundant OSN subtypes.

Published

2019

10. Taste Exam: A Brief and Validated Test.

Author

Douglas JE, Mansfield CJ, Arayata CJ, Cowart BJ, Colquitt LR, Maina IW, Blasetti MT, Cohen NA, and Reed DR

Subjects

Adult, Female, Humans, Male, Young Adult, Taste physiology, Taste Buds physiology, Tongue physiology

Abstract

The emerging importance of taste in medicine and biomedical research, and new knowledge about its genetic underpinnings, has motivated us to supplement classic taste-testing methods in two ways. First, we explain how to do a brief assessment of the mouth, including the tongue, to ensure that taste papillae are present and to note evidence of relevant disease. Second, we draw on genetics to validate taste test data by comparing reports of perceived bitterness intensity and inborn receptor genotypes. Discordance between objective measures of genotype and subjective reports of taste experience can identify data collection errors, distracted subjects or those who have not understood or followed instructions. Our expectation is that fast and valid taste tests may persuade researchers and clinicians to assess taste regularly, making taste testing as common as testing for hearing and vision. Finally, because many tissues of the body express taste receptors, taste responses may provide a proxy for tissue sensitivity elsewhere in the body and, thereby, serve as a rapid, point-of-care test to guide diagnosis and a research tool to evaluate taste receptor protein function.

Published

2018