Your search keyword '"AMBLYOPSIDAE"' showing total 329 results

1. First Parasites (Cnidaria: Myxobolidae; Trematoda: Digenea: Clinostomidae) Reported from the Threatened Ozark Cavefish, Troglichthys rosae (Percopsiformes: Amblyopsidae), from Arkansas, U.S.A., with a Summary of the Parasites of North American Cavefishes.

Author

McAllister, Chris T., Fenolio, Danté B., Slay, Michael E., and Cloutman, Donald G.

Subjects

AMBLYOPSIDAE, DIGENEA, TREMATODA, PARASITES, GALLBLADDER, METACERCARIA, CNIDARIA

Abstract

Examination of 4 Ozark cavefish, Troglichthys rosae, collected opportunistically during February 2020 from Benton County, Arkansas, U.S.A., revealed the presence of an unknown myxozoan (Myxobolus sp.) in the gall bladder of 1 fish and encapsulated metacercariae of Clinostomum sp. ("yellow grub") in 2 hosts. One Ozark cavefish harbored 4 metacercaria and the other a single metacercaria. This is the first report of any parasite from T. rosae, a federally threatened species. We also provide a summary of parasites reported from members of the cavefish and swampfish family, Amblyopsidae. [ABSTRACT FROM AUTHOR]

Published

2023

2. Novel evolutionary insights into nemacheilid cavefish: evidence from comparative analysis of mitochondrial genomes.

Author

Zhou, Lei, Huang, Shihui, Wang, Qing, Li, Zhenhai, Li, Zongyang, He, Anyou, Chen, Jiehu, Liu, Li, and Zou, Keshu

Subjects

*AMBLYOPSIDAE, *GROUNDWATER animals, *MARINE ecology, *DIFFERENCES, *VERTEBRATES

Abstract

Cavefish can be important models for understanding the relationships among evolution, adaptation, and development in extreme environments. However, cavefish remain poorly studied, particularly at the genome level. Here, we sequenced the complete mitogenome of three cavefish in the family Nemacheilidae (Paranemachilus pingguoensis, Oreonectes polystigmus, and Heminoemacheilus longibarbatus), which were collected from karst caves in South China. The mitogenomes each contained 37 genes (13 protein coding, 22 tRNA, and two rRNA genes) and a single control region, with the same genetic arrangement and distribution as those found in vertebrates. The non-synonymous/synonymous mutation ratios (Ka/Ks) of the mitogenomes indicated that the protein-coding genes (PCGs) of the three cavefish evolved under purifying selection. The mitogenomes of the three cavefish exhibit nucleotide composition biases for PCGs, tRNAs, rRNAs, and the whole genome, indicating that the mitochondrial DNA might have been subjected to evolutionary selection in response to extreme cave environments. Divergence time and evolutionary history analyses suggested that the speciation and diversification of the cavefish coincided with the Miocene uplift of the southern Qinghai-Tibet Plateau, which greatly changed cave habitats. Overall, our study sheds light on the mitogenomes, phylogeny, and evolutionary history of nemacheilid cavefish. [ABSTRACT FROM AUTHOR]

Published

2022

3. Genetic mapping of metabolic traits in the blind Mexican cavefish reveals sex-dependent quantitative trait loci associated with cave adaptation.

Author

Riddle, Misty R., Aspiras, Ariel, Damen, Fleur, McGaugh, Suzanne, Tabin, Julius A., and Tabin, Clifford J.

Subjects

AMBLYOPSIDAE, GENE mapping, SIZE of fishes, FISH genetics, BLOOD sugar

Abstract

Background: Despite a longstanding interest in understanding how animals adapt to environments with limited nutrients, we have incomplete knowledge of the genetic basis of metabolic evolution. The Mexican tetra, Astyanax mexicanus, is a species of fish that consists of two morphotypes; eyeless cavefish that have adapted to a low-nutrient cave environment, and ancestral river-dwelling surface fish with abundant access to nutrients. Cavefish have evolved altered blood sugar regulation, starvation tolerance, increased fat accumulation, and superior body condition. To investigate the genetic basis of cavefish metabolic evolution we carried out a quantitative trait loci (QTL) analysis in surface/cave F2 hybrids. We genetically mapped seven metabolism-associated traits in hybrids that were challenged with a nutrient restricted diet. Results: We found that female F2 hybrids are bigger than males and have a longer hindgut, bigger liver, and heavier gonad, even after correcting for fish size. Although there is no difference between male and female blood sugar level, we found that high blood sugar is associated with weight gain in females and lower body weight and fat level in males. We identified a significant QTL associated with 24-h-fasting blood glucose level with the same effect in males and females. Differently, we identified sex-independent and sex-dependent QTL associated with fish length, body condition, liver size, hindgut length, and gonad weight. We found that some of the genes within the metabolism QTL display evidence of non-neutral evolution and are likely to be under selection. Furthermore, we report predicted nonsynonymous changes to the cavefish coding sequence of these genes. Conclusions: Our study reveals previously unappreciated genomic regions associated with blood glucose regulation, body condition, gonad size, and internal organ morphology. In addition, we find an interaction between sex and metabolism-related traits in A. mexicanus. We reveal coding changes in genes that are likely under selection in the low-nutrient cave environment, leading to a better understanding of the genetic basis of metabolic evolution. [ABSTRACT FROM AUTHOR]

Published

2021

4. Evolution in Sinocyclocheilus cavefish is marked by rate shifts, reversals, and origin of novel traits.

Author

Ting-Ru Mao, Ye-Wei Liu, Meegaskumbura, Madhava, Jian Yang, Ellepola, Gajaba, Senevirathne, Gayani, Cheng-Hai Fu, Gross, Joshua B., and Pie, Marcio R.

Subjects

AMBLYOPSIDAE, FISH phylogeny, SIZE of fishes, PLEISTOCENE Epoch

Abstract

Background: Natural model systems are indispensable for exploring adaptations in response to environmental pressures. Sinocyclocheilus of China, the most diverse cavefish clade in the world (75 species), provide unique opportunities to understand recurrent evolution of stereotypic traits (such as eye loss and sensory expansion) in the context of a deep and diverse phylogenetic group. However, they remain poorly understood in terms of their morphological evolution. Therefore, we explore key patterns of morphological evolution, habitat utilization and geographic distribution in these fishes. Results: We constructed phylogenies and categorized 49 species based on eye-related condition (Blind, Micro-eyed, and Normal-eyed), habitat types (Troglobitic-cave-restricted; Troglophilic-cave-associated; Surface-outside caves) and existence of horns. Geometric-morphometric analyses show Normal-eyed morphs with fusiform shapes segregating from Blind/Micro-eyed deeper bodied morphs along the first principal-component axis; second axis accounts for shape complexity related to horns. The body shapes showed a significant association with eye-related condition and horn, but not habitat types. Ancestral reconstructions suggest at least three independent origins of Blind morphs, each with different levels of modification in relation to their ancestral Normal-eyed morphs; Sinocyclocheilus are also pre-adapted for cave dwelling. Our geophylogeny shows an east-to-west diversification spanning Pliocene and Pleistocene, with early-diversifying Troglobitic species dominating subterranean habitats of karstic plains whereas predominantly Surface forms inhabit hills to the west. Evolutionary rates analyses suggest that lineages leading to Blind morphs were characterized by significant rate shifts, such as a slowdown in body size evolution and a 5-20 fold increase in rate of eye regression, possibly explained by limited resource availability. Body size and eye size have undergone reversals, but not horns, a trait entailing considerable time to form. Conclusions: Sinocyclocheilus occupied cave habitats in response to drying associated with aridification of China during late Miocene and the Pliocene. The prominent cave-adaptations (eye-regression, horn-evolution) occur in clades associated with the extensive subterranean cave system in Guangxi and Guizhou provinces. Integration of morphology, phylogeny, rate analyses, molecular-dating and distribution show not only several remarkable patterns of evolution, but also interesting exceptions to these patterns signifying the diversification of Sinocyclocheilus as an invaluable model system to explore evolutionary novelty. [ABSTRACT FROM AUTHOR]

Published

2021

5. Contrasting Gene Decay in Subterranean Vertebrates: Insights from Cavefishes and Fossorial Mammals.

Author

Policarpo, Maxime, Fumey, Julien, Lafargeas, Philippe, Naquin, Delphine, Thermes, Claude, Naville, Magali, Dechaud, Corentin, Volff, Jean-Nicolas, Cabau, Cedric, Klopp, Christophe, Møller, Peter Rask, Bernatchez, Louis, García-Machado, Erik, Rétaux, Sylvie, and Casane, Didier

Subjects

AMBLYOPSIDAE, BURROWING animals, MACHINE learning, PLEISTOCENE Epoch, TETRAPLOIDY

Abstract

Evolution sometimes proceeds by loss, especially when structures and genes become dispensable after an environmental shift relaxes functional constraints. Subterranean vertebrates are outstanding models to analyze this process, and gene decay can serve as a readout. We sought to understand some general principles on the extent and tempo of the decay of genes involved in vision, circadian clock, and pigmentation in cavefishes. The analysis of the genomes of two Cuban species belonging to the genus Lucifuga provided evidence for the largest loss of eye-specific genes and nonvisual opsin genes reported so far in cavefishes. Comparisons with a recently evolved cave population of Astyanax mexicanus and three species belonging to the Chinese tetraploid genus Sinocyclocheilus revealed the combined effects of the level of eye regression, time, and genome ploidy on eye-specific gene pseudogenization. The limited extent of gene decay in all these cavefishes and the very small number of loss-of-function mutations per pseudogene suggest that their eye degeneration may not be very ancient, ranging from early to late Pleistocene. This is in sharp contrast with the identification of several vision genes carrying many loss-of-function mutations in ancient fossorial mammals, further suggesting that blind fishes cannot thrive more than a few million years in cave ecosystems. [ABSTRACT FROM AUTHOR]

Published

2021

6. Cave‐adapted evolution in the North American amblyopsid fishes inferred using phylogenomics and geometric morphometrics.

Author

Hart, Pamela B., Niemiller, Matthew L., Burress, Edward D., Armbruster, Jonathan W., Ludt, William B., and Chakrabarty, Prosanta

Subjects

*MORPHOLOGY, *EYE color, *FISHES, *BIOLOGICAL evolution, *CAVES, *AMBLYOPSIDAE, *BIOSPELEOLOGY

Abstract

Cave adaptation has evolved repeatedly across the Tree of Life, famously leading to pigmentation and eye degeneration and loss, yet its macroevolutionary implications remain poorly understood. We use the North American amblyopsid fishes, a family spanning a wide degree of cave adaptation, to examine the impact of cave specialization on the modes and tempo of evolution. We reconstruct evolutionary relationships using ultraconserved element loci, estimate the ancestral histories of eye‐state, and examine the impact of cave adaptation on body shape evolution. Our phylogenomic analyses provide a well‐supported hypothesis for amblyopsid evolutionary relationships. The obligate blind cavefishes form a clade and the cave‐facultative eyed spring cavefishes are nested within the obligate cavefishes. Using ancestral state reconstruction, we find support for at least two independent subterranean colonization events within the Amblyopsidae. Eyed and blind fishes have different body shapes, but not different rates of body shape evolution. North American amblyopsids highlight the complex nature of cave‐adaptive evolution and the necessity to include multiple lines of evidence to uncover the underlying processes involved in the loss of complex traits. [ABSTRACT FROM AUTHOR]

Published

2020

7. Sinocyclocheilus sanxiaensis, a new blind fish from the Three Gorges of Yangtze River provides insights into speciation of Chinese cavefish.

Author

Wan-Sheng Jiang, Jie Li, Xiao-Zhong Lei, Zhou-Rui Wen, Yu-Zhang Han, Jun-Xing Yang, and Jian-Bo Chang

Subjects

FISHES, AMBLYOPSIDAE, CYTOCHROME b, PHYLOGENY, DNA

Abstract

The article offers insight to a research in which Sinocyclocheilus sanxiaensis, a new blind fish from the Three Gorges of Yangtze River provides insights into speciation of Chinese cavefish. It mentions that mitochondrial cytochrome b was sequenced and analyzed to clarify the phylogenetic position of the new species, and to estimate divergence time from its putative sister species. It also mentions that DNA was extracted from the pectoral fin on the right side of the fish.

Published

2019

8. It's not magic – Hsp90 and its effects on genetic and epigenetic variation.

Author

Zabinsky, Rebecca A., Mason, Grace Alexandria, Queitsch, Christine, and Jarosz, Daniel F.

Subjects

*HEAT shock proteins, *EPIGENETICS, *ECOLOGICAL disturbances, *AMBLYOPSIDAE, *CELLULAR signal transduction

Abstract

Abstract Canalization, or phenotypic robustness in the face of environmental and genetic perturbation, is an emergent property of living systems. Although this phenomenon has long been recognized, its molecular underpinnings have remained enigmatic until recently. Here, we review the contributions of the molecular chaperone Hsp90, a protein that facilitates the folding of many key regulators of growth and development, to canalization of phenotype – and de-canalization in times of stress – drawing on studies in eukaryotes as diverse as baker's yeast, mouse ear cress, and blind Mexican cavefish. Hsp90 is a hub of hubs that interacts with many so-called 'client proteins,' which affect virtually every aspect of cell signaling and physiology. As Hsp90 facilitates client folding and stability, it can epistatically suppress or enable the expression of genetic variants in its clients and other proteins that acquire client status through mutation. Hsp90's vast interaction network explains the breadth of its phenotypic reach, including Hsp90-dependent de novo mutations and epigenetic effects on gene regulation. Intrinsic links between environmental stress and Hsp90 function thus endow living systems with phenotypic plasticity in fluctuating environments. As environmental perturbations alter Hsp90 function, they also alter Hsp90's interaction with its client proteins, thereby re-wiring networks that determine the genotype-to-phenotype map. Ensuing de-canalization of phenotype creates phenotypic diversity that is not simply stochastic, but often has an underlying genetic basis. Thus, extreme phenotypes can be selected, and assimilated so that they no longer require environmental stress to manifest. In addition to acting on standing genetic variation, Hsp90 perturbation has also been linked to increased frequency of de novo variation and several epigenetic phenomena, all with the potential to generate heritable phenotypic change. Here, we aim to clarify and discuss the multiple means by which Hsp90 can affect phenotype and possibly evolutionary change, and identify their underlying common feature: at its core, Hsp90 interacts epistatically through its chaperone function with many other genes and their gene products. Its influence on phenotypic diversification is thus not magic but rather a fundamental property of genetics. [ABSTRACT FROM AUTHOR]

Published

2019

9. Biology of Subterranean Fishes

Author

Eleonora Trajano, Maria Elina Bichuette, B.G. Kapoor, Eleonora Trajano, Maria Elina Bichuette, and B.G. Kapoor

Subjects

Fishes--Habitat, Deep-sea fishes, Fishes--Adaptation, Amblyopsidae, Fishes--Ecophysiology

Abstract

In most habitats, adaptations are the single most obvious aspects of an organism's phenotype. However, the most obvious feature of many subterranean animals are losses, not adaptations. Even Darwin saw subterranean animals as degenerates: examples of eyelessness and loss of structure in general. For him, the explanation was a straightforward Lamarc

Published

2010

10. Breeding behavior in the blind Mexican cavefish and its river-dwelling conspecific.

Author

Simon, Victor, Hyacinthe, Carole, and Rétaux, Sylvie

Subjects

*AMBLYOPSIDAE, *SEXUAL behavior in fishes, *FISH breeding, *FISH reproduction

Abstract

Fish reproductive patterns are very diverse in terms of breeding frequency, mating system, sexual dimorphisms and selection, mate choice, spawning site choice, courtship patterns, spawning behaviors and parental care. Here we have compared the breeding behavior of the surface-dwelling and cave-dwelling morphs of the characiform A. mexicanus, with the goals of documenting the spawning behavior in this emerging model organism, its possible evolution after cave colonization, and the sensory modalities involved. Using infrared video recordings, we showed that cave and surface Astyanax spawning behavior is identical, occurs in the dark, and can be divided into 5 rapid phases repeated many times, about once per minute, during spawning sessions which last about one hour and involve one female and several males. Such features may constitute “pre-adaptive traits” which have facilitated fish survival after cave colonization, and may also explain how the two morphs can hybridize in the wild and in the laboratory. Accordingly, cross-breeding experiments involving females of one morphotype and males of the other morphotype showed the same behavior including the same five phases. However, breeding between cavefish females and surface fish males was more frequent than the reverse. Finally, cavefish female pheromonal solution was able to trigger strong behavioral responses in cavefish males–but not on surface fish males. Lastly, egg production seemed higher in surface fish females than in cavefish females. These results are discussed with regards to the sensory modalities involved in triggering reproductive behavior in the two morphs, as well as its possible ongoing evolution. [ABSTRACT FROM AUTHOR]

Published

2019

11. Brain of the blind: transcriptomics of the golden-line cavefish brain.

Author

Meng, Fanwei, Zhao, Yahui, Titus, Tom, Zhang, Chunguang, and Postlethwait, John H

Subjects

*BARBEL (Fish), *AMBLYOPSIDAE, *RNA sequencing, *BIOSYNTHESIS, *GENE expression

Abstract

The genus Sinocyclocheilus (golden-line barbel) includes 25 species of cave-dwelling blind fish (cavefish) and more than 30 surface-dwelling species with normal vision. Cave environments are dark and generally nutrient-poor with few predators. Cavefish of several genera evolved convergent morphological adaptations in visual, pigmentation, brain, olfactory, and digestive systems. We compared brain morphology and gene expression patterns in a cavefish Sinocyclocheilus anophthalmus with those of a closely related surface-dwelling species S. angustiporus. Results showed that cavefish have a longer olfactory tract and a much smaller optic tectum than surface fish. Transcriptomics by RNA-seq revealed that many genes upregulated in cavefish are related to lysosomes and the degradation and metabolism of proteins, amino acids, and lipids. Genes downregulated in cavefish tended to involve "activation of gene expression in cholesterol biosynthesis" and cholesterol degradation in the brain. Genes encoding Srebfs (sterol regulatory element-binding transcription factors) and Srebf targets, including enzymes in cholesterol synthesis, were downregulated in cavefish brains compared with surface fish brains. The gene encoding Cyp46a1, which eliminates cholesterol from the brain, was also downregulated in cavefish brains, while the total level of cholesterol in the brain remained unchanged. Cavefish brains misexpressed several genes encoding proteins in the hypothalamus–pituitary axis, including Trh, Sst, Crh, Pomc, and Mc4r. These results suggest that the rate of lipid biosynthesis and breakdown may both be depressed in golden-line cavefish brains but that the lysosome recycling rate may be increased in cavefish; properties that might be related to differences in nutrient availability in caves. [ABSTRACT FROM AUTHOR]

Published

2018

12. Cellular rearrangement of the prechordal plate contributes to eye degeneration in the cavefish.

Author

Ren, Xiaoyun, Hamilton, Noémie, Yamamoto, Yoshiyuki, and Müller, Ferenc

Subjects

*AMBLYOPSIDAE, *EYE abnormalities, *HYPOTHALAMUS, *EXPRESSIVE behavior, *EMBRYOS

Abstract

Astyanax mexicanus consists of two different populations: a sighted surface-dwelling form (surface fish) and a blind cave-dwelling form (cavefish). In the cavefish, embryonic expression of sonic hedgehog a ( shha) in the prechordal plate is expanded towards the anterior midline, which has been shown to contribute to cavefish specific traits such as eye degeneration, enhanced feeding apparatus, and specialized brain anatomy. However, it is not clear how this expanded expression is achieved and which signaling pathways are involved. Nodal signaling has a crucial role for expression of shh and formation of the prechordal plate. In this study, we report increased expression of prechordal plate marker genes, nodal-related 2 ( ndr2 ) and goosecoid ( gsc) in cavefish embryos at the tailbud stage. To investigate whether Nodal signaling is responsible for the anterior expansion of the prechordal plate, we used an inhibitor of Nodal signaling and showed a decreased anterior expansion of the prechordal plate and increased pax6 expression in the anterior midline in treated cavefish embryos. Later in development, the lens and optic cup of treated embryos were significantly larger than untreated embryos. Conversely, increasing Nodal signaling in the surface fish embryo resulted in the expansion of anterior prechordal plate and reduction of pax6 expression in the anterior neural plate together with the formation of small lenses and optic cups later in development. These results confirmed that Nodal signaling has a crucial role for the anterior expansion of the prechordal plate and plays a significant role in cavefish eye development. We showed that the anterior expansion of the prechordal plate was not due to increased total cell number, suggesting the expansion is achieved by changes in cellular distribution in the prechordal plate. In addition, the distribution of presumptive prechordal plate cells in Spemann's organiser was also altered in the cavefish. These results suggested that changes in the cellular arrangement of Spemann's organiser in early gastrulae could have an essential role in the anterior expansion of the prechordal plate contributing to eye degeneration in the cavefish. [ABSTRACT FROM AUTHOR]

Published

2018

13. Convergence on reduced stress behavior in the Mexican blind cavefish.

Author

Chin, Jacqueline S.R., Amaral, Paloma M., Duboue, Erik R., Lloyd, Evan, Stahl, Bethany A., Jaggard, James B., Keene, Alex C., and Gassant, Claude E.

Subjects

*ASTYANAX mexicanus, *AMBLYOPSIDAE, *FISH populations, *POST-traumatic stress disorder, *ANXIETY

Abstract

Responding appropriately to stress is essential for survival, yet in pathological states, these responses can develop into debilitating conditions such as post-traumatic stress disorder and generalized anxiety. While genetic models have provided insight into the neurochemical and neuroanatomical pathways that underlie stress, little is known about how evolutionary processes and naturally occurring variation contribute to the diverse responses to stressful stimuli observed in the animal kingdom. The Mexican cavefish is a powerful system to address how altered genetic and neuronal systems can give rise to altered behaviors. When introduced into a novel tank, surface fish and cavefish display a stereotypic stress response, characterized by reduced exploratory behavior and increased immobility, akin to "freezing". The stress response in cave and surface forms is reduced by pharmacological treatment with the anxiolytic drug, buspirone, fortifying the notion that behavior in the assay represents a conserved stress state. We find that cave populations display reduced behavioral measures of stress compared to surface conspecifics, including increased time in the top half of the tank and fewer periods of immobility. Further, reduced stress responses are observed in multiple independently derived cavefish populations, suggesting convergence on loss of behavioral stress responses in the novel tank assay. These findings provide evidence of a naturally occurring species with two drastically different forms in which a shift in predator-rich ecology to one with few predators corresponds to a reduction in stress behavior. [ABSTRACT FROM AUTHOR]

Published

2018

14. Developmental evolution and developmental plasticity of the olfactory epithelium and olfactory skills in Mexican cavefish.

Author

Blin, Maryline, Tine, Eugène, Meister, Lydvina, Elipot, Yannick, Bibliowicz, Jonathan, Espinasa, Luis, and Rétaux, Sylvie

Subjects

*ASTYANAX mexicanus, *BIOLOGICAL evolution, *PHENOTYPIC plasticity, *OLFACTORY nerve, *AMBLYOPSIDAE

Abstract

The fish Astyanax mexicanus comes in two forms: the normal surface-dwelling (SF) and the blind depigmented cave-adapted (CF) morphs. Among many phenotypic differences, cavefish show enhanced olfactory sensitivity to detect amino-acid odors and they possess large olfactory sensory organs. Here, we questioned the relationship between the size of the olfactory organ and olfactory capacities. Comparing olfactory detection abilities of CF, SF and F1 hybrids with various olfactory epithelium (OE) sizes in behavioral tests, we concluded that OE size is not the only factor involved. Other possibilities were envisaged. First, olfactory behavior was tested in SF raised in the dark or after embryonic lens ablation, which leads to eye degeneration and mimics the CF condition. Both absence of visual function and absence of visual organs improved the SF olfactory detection capacities, without affecting the size of their OE. This suggested that developmental plasticity occurs between the visual and the olfactory modalities, and can be recruited in SF after visual deprivation. Second, the development of the olfactory epithelium was compared in SF and CF in their first month of life. Proliferation, cell death, neuronal lifespan, and olfactory progenitor cell cycling properties were identical in the two morphs. By contrast, the proportions of the three main olfactory sensory neurons subtypes (ciliated, microvillous and crypt) in their OE differed. OMP-positive ciliated neurons were more represented in SF, TRPC2-positive microvillous neurons were proportionately more abundant in CF, and S100-positive crypt cells were found in equal densities in the two morphs. Thus, general proliferative properties of olfactory progenitors are identical but neurogenic properties differ and lead to variations in the neuronal composition of the OE in SF and CF. Together, these experiments suggest that there are at least two components in the evolution of cavefish olfactory skills: (1) one part of eye-dependent developmental phenotypic plasticity, which does not depend on the size of the olfactory organ, and (2) one part of developmental evolution of the OE, which may stem from embryonic specification of olfactory neurons progenitor pools. [ABSTRACT FROM AUTHOR]

Published

2018

15. Maternal genetic effects in Astyanax cavefish development.

Author

Ma, Li, Strickler, Allen G., Parkhurst, Amy, Yoshizawa, Masato, Shi, Janet, and Jeffery, William R.

Subjects

*AMBLYOPSIDAE, *ASTYANAX mexicanus, *GENES, *PHENOTYPES, *SPECIES hybridization

Abstract

The role of maternal factors in the evolution of development is poorly understood. Here we describe the use of reciprocal hybridization between the surface dwelling (surface fish, SF) and cave dwelling (cavefish, CF) morphs of the teleost Astyanax mexicanus to investigate the roles of maternal genetic effects in cavefish development. Reciprocal hybridization, a procedure in which F1 hybrids are generated by fertilizing SF eggs with CF sperm (SF × CF hybrids) and CF eggs with SF sperm (CF × SF hybrids), revealed that the CF degenerative eye phenotype showed maternal genetic effects. The eyes of CF × SF hybrids resembled the degenerate eyes of CF in showing ventral reduction of the retina and corresponding displacement of the lens within the optic cup, a smaller lens and eyeball, more lens apoptosis, a smaller cartilaginous sclera, and lens-specific gene expression characteristics compared to SF × CF hybrids, which showed eye and lens gene expression phenotypes resembling SF. In contrast, reciprocal hybridization failed to support roles for maternal genetic effects in the CF regressive pigmentation phenotype or in CF constructive changes related to enhanced jaw development. Maternal transcripts encoded by the pou2f1b , runx2b , and axin1 genes, which are involved in determining ventral embryonic fates, were increased in unfertilized CF eggs. In contrast, maternal mRNAs encoded by the ß-catenin and syntabulin genes, which control dorsal embryonic fates, showed similar expression levels in unfertilized SF and CF eggs. Furthermore, maternal transcripts of a sonic hedgehog gene were detected in SF and CF eggs and early cleaving embryos. This study reveals that CF eye degeneration is controlled by changes in maternal factors produced during oogenesis and introduces A. mexicanus as a model system for studying the role of maternal changes in the evolution of development. [ABSTRACT FROM AUTHOR]

Published

2018

16. Mc1r gene in Astroblepus pholeter and Astyanax mexicanus: Convergent regressive evolution of pigmentation across cavefish species.

Author

Espinasa, Luis, Robinson, Jenna, and Espinasa, Monika

Subjects

*ASTYANAX mexicanus, *GENES, *ANIMAL coloration, *BIOLOGICAL evolution, *AMBLYOPSIDAE

Abstract

Cave-adapted organisms are often characterized by a reduction in pigmentation, eyesight, and enhanced mechanosensory functions. Previous studies have described the genetic basis for a depigmented phenotype in multiple independent populations of the Blind Mexican Tetra, Astyanax mexicanus ; the reduction in melanin content (brown; Mc1r). At least seven wild populations express the brown phenotype. In three populations, there are two different coding sequence alterations affecting Mc1r and the remaining four populations show the accumulation of sequence mutations affecting the 5′ regulatory region. Thus, the Mc1r gene has been the repeated and independent location of mutations in Astyanax . As such, it would appear that this gene is a target during regressive evolution of cave adapted organisms. If this is the case, it would be expected that other cave adapted fish would have mutations in the same gene. We study here the stygobitic catfish Astroblepus pholeter, a depigmented fish found within some river caves in Ecuador. A. pholeter displays mutations in ultra-conserved areas of the pigment-controlling gene, Mc1r, that have been linked to pigment regulation in other organisms. It is thus concluded that Mc1r, a gene known to control pigment variation in many organisms, may be the target of cavernicole regressive evolution across species in different families of fish. [ABSTRACT FROM AUTHOR]

Published

2018

17. Morphogenesis and motility of the Astyanax mexicanus gastrointestinal tract.

Author

Riddle, Misty R., Tabin, Clifford J., Caballero, Olivya, Boesmans, Werend, and Kazwiny, Youcef

Subjects

*MORPHOGENESIS, *ASTYANAX mexicanus, *GASTROINTESTINAL system, *AMBLYOPSIDAE, *BIOLOGICAL evolution

Abstract

Through the course of evolution, the gastrointestinal (GI) tract has been modified to maximize nutrient absorption, forming specialized segments that are morphologically and functionally distinct. Here we show that the GI tract of the Mexican tetra, Astyanax mexicanus, has distinct regions, exhibiting differences in morphology, motility, and absorption. We found that A. mexicanus populations adapted for life in subterranean caves exhibit differences in the GI segments compared to those adapted to surface rivers. Cave-adapted fish exhibit bi-directional churning motility in the stomach region that is largely absent in river-adapted fish. We investigated how this motility pattern influences intestinal transit of powdered food and live prey. We found that powdered food is more readily emptied from the cavefish GI tract. In contrast, the transit of live rotifers from the stomach region to the midgut occurs more slowly in cavefish compared to surface fish, consistent with the presence of churning motility. Differences in intestinal motility and transit likely reflect adaptation to unique food sources available to post-larval A. mexicanus in the cave and river environments. We found that cavefish grow more quickly than surface fish when fed ad libitum, suggesting that altered GI function may aid in nutrient consumption or absorption. We did not observe differences in enteric neuron density or smooth muscle organization between cavefish and surface fish. Altered intestinal motility in cavefish could instead be due to changes in the activity or patterning of the enteric nervous system. Exploring this avenue will lead to a better understanding of how the GI tract evolves to maximize energy assimilation from novel food sources. [ABSTRACT FROM AUTHOR]

Published

2018

18. Early adipogenesis contributes to excess fat accumulation in cave populations of Astyanax mexicanus.

Author

Xiong, Shaolei, Krishnan, Jaya, Peuß, Robert, and Rohner, Nicolas

Subjects

*ADIPOGENESIS, *ASTYANAX mexicanus, *FISH populations, *FATS & oils, *AMBLYOPSIDAE

Abstract

Cavefish populations of Astyanax mexicanus have increased body fat compared to surface fish populations of the same species when fed ad libitum in the laboratory. We have previously shown that some cavefish populations display hyperphagia (elevated appetite) to increase food consumption, fat deposition and starvation resistance. However, not all cavefish populations display hyperphagia, yet all previously tested cavefish display elevated body fat levels. Here we have extended this analysis by focusing on visceral fat acquisition in three independently derived cavefish populations. We show that cavefish from two independently derived cavefish populations (Pachón and Tinaja) display increased amounts of visceral adipose tissue (VAT) due to hypertrophy of visceral adipocytes while Molino cavefish display hypertrophy but only slightly elevated VAT levels compared to surface fish. Furthermore, we show that Pachón and Tinaja cavefish develop increased VAT even when food intake is matched to surface fish, suggesting appetite independent mechanisms. We show that in the Pachón population, the differences in the visceral fat in adults correlates with changes in the timing of visceral development, making a developmental contribution likely. Visceral fat development in surface fish starts between 10 and 11 dpf, while in Pachón cavefish, visceral fat cells become visible as early as 8 dpf and develop significantly higher amounts of lipid droplets before surface fish start visceral fat accumulation. We further show that this developmental difference is unique to the Pachón cavefish population, while the Tinaja cavefish population - which displays hyperphagia - starts to develop visceral fat similar to surface fish. We suggest the differences in early adipogenesis in the Pachón population as an additional strategy of increased fat gain in cavefish to adapt to food scarcity. [ABSTRACT FROM AUTHOR]

Published

2018

19. Genetic linkage between altered tooth and eye development in lens-ablated Astyanax mexicanus.

Author

Atukorala, Atukorallaya Devi Sewvandini and Franz-Odendaal, Tamara Anne

Subjects

*ASTYANAX mexicanus, *EYE development, *DENTITION, *AMBLYOPSIDAE, *GENE expression

Abstract

The phenotype of lens-ablated Mexican tetra ( Astyanax mexicanus) compared to wild-type surface fish has been described and includes, among other effects, eye degeneration, changes in tooth number and cranial bone changes. Here, we investigate the spatiotemporal expression patterns of several key genes involved in the development of these structures. Specifically, we show that the expression of pitx2, bmp4 and shh is altered in the eye, oral jaw, nasal pit and forebrain in these lens-ablated fish. Furthermore, for the first time, we show altered pitx2 expression in the cavefish, which also has altered eye and tooth phenotypes. We thus provide evidence for a genetic linkage between the eye and tooth modules in this fish species. Furthermore, the altered pitx2 expression pattern, together with the described morphological features of the lens-ablated fish suggests that Astyanax mexicanus could be considered as an alternative teleost model organism in which to study Axenfeld–Rieger syndrome (ARS), a rare autosomal dominant developmental disorder that is associated with PITX2 and which has both ocular and non-ocular abnormalities. [ABSTRACT FROM AUTHOR]

Published

2018

20. Development of the Astyanax mexicanus circadian clock and non-visual light responses.

Author

Frøland Steindal, Inga A., Yamamoto, Yoshiyuki, Whitmore, David, and Beale, Andrew D.

Subjects

*ASTYANAX mexicanus, *AMBLYOPSIDAE, *FERTILIZATION (Biology), *CIRCADIAN rhythms, *DNA, *FISHES

Abstract

Most animals and plants live on the planet exposed to periods of rhythmic light and dark. As such, they have evolved endogenous circadian clocks to regulate their physiology rhythmically, and non-visual light detection mechanisms to set the clock to the environmental light-dark cycle. In the case of fish, circadian pacemakers are not only present in the majority of tissues and cells, but these tissues are themselves directly light-sensitive, expressing a wide range of opsin photopigments. This broad non-visual light sensitivity exists to set the clock, but also impacts a wide range of fundamental cell biological processes, such as DNA repair regulation. In this context, Astyanax mexicanus is a very intriguing model system with which to explore non-visual light detection and circadian clock function. Previous work has shown that surface fish possess the same directly light entrainable circadian clocks, described above. The same is true for cave strains of Astyanax in the laboratory, though no daily rhythms have been observed under natural dark conditions in Mexico. There are, however, clear alterations in the cave strain light response and changes to the circadian clock, with a difference in phase of peak gene expression and a reduction in amplitude. In this study, we expand these early observations by exploring the development of non-visual light sensitivity and clock function between surface and cave populations. When does the circadian pacemaker begin to oscillate during development, and are there differences between the various strains? Is the difference in acute light sensitivity, seen in adults, apparent from the earliest stages of development? Our results show that both cave and surface populations must experience daily light exposure to establish a larval gene expression rhythm. These oscillations begin early, around the third day of development in all strains, but gene expression rhythms show a significantly higher amplitude in surface fish larvae. In addition, the light induction of clock genes is developmentally delayed in cave populations. Zebrafish embryonic light sensitivity has been shown to be critical not only for clock entrainment, but also for transcriptional activation of DNA repair processes. Similar downstream transcriptional responses to light also occur in Astyanax . Interestingly, the establishment of the adult timing profile of clock gene expression takes several days to become apparent. This fact may provide mechanistic insight into the key differences between the cave and surface fish clock mechanisms. [ABSTRACT FROM AUTHOR]

Published

2018

21. Canal neuromast position prefigures developmental patterning of the suborbital bone series in Astyanax cave- and surface-dwelling fish.

Author

Powers, Amanda K., Boggs, Tyler E., and Gross, Joshua B.

Subjects

*OSSIFICATION, *ASTYANAX mexicanus, *BONE injuries, *AMBLYOPSIDAE, *CARTILAGE

Abstract

Developmental patterning is a complex biological phenomenon, involving integrated cellular and molecular signaling across diverse tissues. In Astyanax cavefish, the lateral line sensory system is dramatically expanded in a region of the cranium marked by significant bone abnormalities. This system provides the opportunity to understand how facial bone patterning can become altered through sensory system changes. Here we investigate a classic postulation that mechanosensory receptor neuromasts seed intramembranous facial bones in aquatic vertebrates. Using an in vivo staining procedure across individual life history, we observed infraorbital canal neuromasts serving as sites of ossification for suborbital bones. The manner in which cavefish departed from the stereotypical and symmetrical canal neuromast patterns of closely-related surface-dwelling fish were associated with specific changes to the suborbital bone complex. For instance, bony fusion, rarely observed in surface fish, was associated with shorter distances between canal neuromasts in cavefish, suggesting that closer canal neuromasts result in bony fusions. Additionally, cavefish lacking the sixth suborbital bone (SO6) uniformly lacked the associated (sixth) canal neuromast. This study suggests that patterning of canal neuromasts may impact spatial position of suborbital bones across development. The absence of an eye and subsequent orbital collapse in cavefish appears to influence positional information normally inherent to the infraorbital canal. These alterations result in coordinated changes to adult neuromast and bone structures. This work highlights complex interactions between visual, sensory and bony tissues during development that explain certain abnormal craniofacial features in cavefish. [ABSTRACT FROM AUTHOR]

Published

2018

22. Neural Crest Transplantation Reveals Key Roles in the Evolution of Cavefish Development.

Author

Yoshizawa, Masato, Hixon, Ernest, and Jeffery, William R

Subjects

*ASTYANAX mexicanus, *NEURAL crest, *AMBLYOPSIDAE, *EYE diseases, *RHOMBENCEPHALON

Abstract

Evolutionary changes in Astyanax mexicanus cavefish with respect to conspecific surface fish, including the regression of eyes, loss of pigmentation, and modification of the cranial skeleton, involve derivatives of the neural crest. However, the role of neural crest cells in cavefish evolution and development is poorly understood. One of the reasons is that experimental methods for neural crest analysis are not well developed in the Astyanax system. Here we describe neural crest transplantation between Astyanax surface fish and cavefish embryos. We found differences in the migration of cranial neural crest cells transplanted from the surface fish anterior hindbrain to the same region of surface fish or cavefish hosts. Cranial neural crest cells migrated extensively throughout the head, and to a lesser extent the trunk, in surface fish hosts but their migration was mostly restricted to the anterior and dorsal head regions in cavefish hosts. Cranial neural crest cells derived from the surface fish transplants invaded the degenerating eyes of cavefish hosts, resulting in increased eye size and suggesting that cavefish neural crest cells are defective in forming optic derivatives. We found that melanophores were formed in albino cavefish from grafts of surface fish trunk neural crest cells, showing that the cavefish tissue environment is conducive for pigment cell development, and implicating intrinsic changes in cavefish neural crest cells in loss of body pigmentation. It is concluded that changes in neural crest cells play key roles in the evolution of cavefish development. [ABSTRACT FROM AUTHOR]

Published

2018

23. Troglomorphic features of Astroblepus pholeter, a cavefish from Ecuador, and possible introgressive hybridization.

Author

Espinasa, Luis, Robinson, Jenna, Soares, Daphne, Hoese, Geoffrey, Toulkeridis, Theofilos, and Toomey III, Rickard

Subjects

*AMBLYOPSIDAE, *INTROGRESSION (Genetics), *FISH hybridization, *FISH morphology

Abstract

Cave organisms are often characterized by reduced pigmentation, eyesight, and enhanced mechanosensory functions. The stygobitic catfish Astroblepus pholeter is found within some subterranean drainages in Ecuador. The species was first described in 1962 with specimens that were all highly depigmented and troglomorphic. The next observations in the field occurred until 2011, 2015 and 2018. At such dates, specimens examined progressively displayed more surface-like appearance. Appendages in these individuals were progressively shorter and pigmentation levels are now as high as some surface Astroblepus. Based on sampled specimens, it would appear that since 1962, the population has been progressively composed of less troglomorphic individuals. One possibility is that the population has undergone introgressive hybridization in recent years as surface Astroblepus are known to enter the caves and cohabitate with the troglomorphic Astroblepus. Lastly, we report that Individuals are able to detect and respond to light. Histological analyses show that A. pholeter's eyes have all of the major ocular structures (lens, optic nerve, and all retinal layers). [ABSTRACT FROM AUTHOR]

Published

2018

24. Characterization and comparison of activity profiles exhibited by the cave and surface morphotypes of the blind Mexican tetra, Astyanax mexicanus.

Author

Carlson, Brian M. and Gross, Joshua B.

Subjects

*ASTYANAX mexicanus, *CAVES, *CIRCADIAN rhythms, *AMBLYOPSIDAE, *BIOLUMINESCENCE

Abstract

Departure from normal circadian rhythmicity and exposure to atypical lighting cues has been shown to adversely affect human health and wellness in a variety of ways. In contrast, adaptation to extreme environments has led many species to alter or even entirely abandon their reliance upon cyclic environmental inputs, principally daily cycles of light and darkness. The extreme darkness, stability and isolation of cave ecosystems has made cave-adapted species particularly attractive systems in which to study the consequences of life without light and the strategies that allow species to survive and even thrive in such environments. In order to further explore these questions, we have assessed the rhythmicity of locomotion in the blind Mexican tetra, Astyanax mexicanus , under controlled laboratory conditions. Using high-resolution video tracking assays, we characterized patterns in locomotor activity and spatial tank usage for members of the surface and Pachón cave populations. Here we demonstrate that cavefish have a higher overall level of activity and use the space within the trial tank differently than surface fish. Further, Pachón cavefish show circadian rhythmicity in both activity and spatial tank usage under a 12:12 light/dark cycle. We provide further evidence that these cavefish retain a weakly light-entrainable, endogenous circadian oscillator with limited capability to sustain rhythms in activity, but not spatial tank usage, in the absence of photic cues. Finally, we demonstrate a putative behavioral “masking effect” contributing to behavioral rhythms and provide evidence that exposure to constant darkness during development may alter behavioral patterns later in life. [ABSTRACT FROM AUTHOR]

Published

2018

25. Behavioural changes controlled by catecholaminergic systems explain recurrent loss of pigmentation in cavefish.

Author

Abraham, Lindsey, Li Ma, Jeffery, William R., Bilandzija, Helena, and Renner, Kenneth J.

Subjects

*AMBLYOPSIDAE, *FISH behavior, *ALBINISM, *FISH pigments, *CATECHOLAMINE analysis, *FISH adaptation, *GENETIC mutation, *GENETICS

Abstract

Multiple cave populations of the teleost Astyanax mexicanus have repeatedly reduced or lost eye and body pigmentation during adaptation to dark caves. Albinism, the complete absence of melanin pigmentation, is controlled by loss-of-function mutations in the oca2 gene. The mutation is accompanied by an increase in the melanin synthesis precursor L-tyrosine, which is also a precursor for catecholamine synthesis. In this study, we show a relationship between pigmentation loss, enhanced catecholamine synthesis and responsiveness to anaesthesia, determined as a proxy for catecholaminerelated behaviours. We demonstrate that anaesthesia resistance (AR) is enhanced in multiple depigmented and albino cavefish (CF), inversely proportional to the degree of pigmentation loss, controlled by the oca2 gene, and can be modulated by experimental manipulations of L-tyrosine or the catecholamine norepinephrine (NE). Moreover, NE is increased in the brains of multiple albino and depigmented CF relative to surface fish. The results provide new insights into the evolution of pigment modification because NE controls a suite of adaptive behaviours similar to AR that may represent a target of natural selection. Thus, understanding the relationship between loss of pigmentation and AR may provide insight into the role of natural selection in the evolution of albinism via a melanin--catecholamine trade-off. [ABSTRACT FROM AUTHOR]

Published

2018

26. A local duplication of the Melanocortin receptor 1 locus in Astyanax.

Author

Gross, Joshua B., Weagley, James, Stahl, Bethany A., Ma, Li, Espinasa, Luis, McGaugh, Suzanne E., and Olson, Bradley

Subjects

*AMBLYOPSIDAE, *MELANOCORTIN receptors, *ANIMAL genome mapping, *ALLELES, *BIODIVERSITY

Abstract

In this study, we report evidence of a novel duplication of Melanocortin receptor 1 ( Mc1r) in the cavefish genome. This locus was discovered following the observation of excessive allelic diversity in a ∼820 bp fragment of Mc1r amplified via degenerate PCR from a natural population of Astyanax aeneus fish from Guerrero, Mexico. The cavefish genome reveals the presence of two closely related Mc1r open reading frames separated by a 1.46 kb intergenic region. One open reading frame corresponds to the previously reported Mc1r receptor, and the other open reading frame (duplicate copy) is 975 bp in length, encoding a receptor of 325 amino acids. Sequence similarity analyses position both copies in the syntenic region of the single Mc1r locus in 16 representative craniate genomes spanning bony fish (including Astyanax) to mammals, suggesting we discovered tandem duplicates of this important gene. The two Mc1r copies share ∼89% sequence similarity and, within Astyanax, are more similar to one another compared to other melanocortin family members. Future studies will inform the precise functional significance of the duplicated Mc1r locus and if this novel copy number variant may have adaptive significance for the Astyanax lineage. [ABSTRACT FROM AUTHOR]

Published

2018

27. How hydrogeology has shaped the ecology of Missouri’s Ozark cavefish, Amblyopsis rosae, and southern cavefish, Typhlichthys subterraneus: insights on the sightless from understanding the underground

Author

Noltie, Douglas B., Wicks, Carol M., Balon, Eugene K., editor, and Romero, Aldemaro, editor

Published

2001

28. Metabolic rate and natural history of Ozark cavefish, Amblyopsis rosae, in Logan Cave, Arkansas

Author

Adams, Ginny L., Johnson, James E., Balon, Eugene K., editor, and Romero, Aldemaro, editor

Published

2001

29. Hypocretin underlies the evolution of sleep loss in the Mexican cavefish.

Author

Jaggard, James B., Stahl, Bethany A., Lloyd, Evan, Prober, David A., Duboue, Erik R., and Keene, Alex C.

Subjects

*OREXINS, *SLEEP deprivation, *ASTYANAX mexicanus, *AMBLYOPSIDAE, *NEURONS, *STARVATION, *LATERAL line organs, *GENETIC transcription regulation, *FISHES

Abstract

The duration of sleep varies dramatically between species, yet little is known about the genetic basis or evolutionary factors driving this variation in behavior. The Mexican cavefish, Astyanax mexicanus, exists as surface populations that inhabit rivers, and multiple cave populations with convergent evolution on sleep loss. The number of Hypocretin/Orexin (HCRT)-positive hypothalamic neurons is increased significantly in cavefish, and HCRT is upregulated at both the transcript and protein levels. Pharmacological or genetic inhibition of HCRT signaling increases sleep in cavefish, suggesting enhanced HCRT signaling underlies the evolution of sleep loss. Ablation of the lateral line or starvation, manipulations that selectively promote sleep in cavefish, inhibit hcrt expression in cavefish while having little effect on surface fish. These findings provide the first evidence of genetic and neuronal changes that contribute to the evolution of sleep loss, and support a conserved role for HCRT in sleep regulation. [ABSTRACT FROM AUTHOR]

Published

2018

30. Blind fish: An eye opener.

Author

Ojha, Akanksha and Watve, Milind

Subjects

VERTEBRATES, AMBLYOPSIDAE, OBESITY, INSULIN resistance, TYPE 2 diabetes

Abstract

Lay Summary: Different species of vertebrates have conditions similar to human obesity, insulin resistance and type 2 diabetes. Increasing number of studies are now revealing that the causes and interrelationships between these states are substantially different in different species. Comparative physiology may turn out to be an eye opener for evolutionary theories of diabetes. Obesity induced insulin resistance is believed to be central to type 2 diabetes. Recent work on Mexican cavefish, Astyanax mexicanus, has revealed a hyperglycemic phenotype similar to human type 2 diabetes but here insulin resistance is the cause of obesity rather than an effect. Instead of developing diabetic complications, the hyperglycemic fish lead a healthy and long life. In addition to fish, insulin resistance in hibernating bears, dolphins, horses, bonnet macaques and chimpanzees demonstrate that the relationship between diet, obesity, insulin sensitivity and diabetes is widely different in different species. Evolutionary hypotheses about type 2 diabetes should explain these differences. [ABSTRACT FROM AUTHOR]

Published

2018

31. A Genomic Survey of SCPP Family Genes in Fishes Provides Novel Insights into the Evolution of Fish Scales.

Author

Yunyun Lv, Kazuhiko Kawasaki, Jia Li, Yanping Li, Chao Bian, Yu Hua, Xinxin You, and Qiong Shi

Subjects

*CALCIUM-binding proteins, *FISH evolution, *ASTYANAX mexicanus, *AMBLYOPSIDAE, *OSTEICHTHYES

Abstract

The family of secretory calcium-binding phosphoproteins (SCPPs) have been considered vital to skeletal tissue mineralization. However, most previous SCPP studies focused on phylogenetically distant animals but not on those closely related species. Here we provide novel insights into the coevolution of SCPP genes and fish scales in 10 species from Otophysi. According to their scale phenotypes, these fishes can be divided into three groups, i.e., scaled, sparsely scaled, and scaleless. We identified homologous SCPP genes in the genomes of these species and revealed an absence of some SCPP members in some genomes, suggesting an uneven evolutionary history of SCPP genes in fishes. In addition, most of these SCPP genes, with the exception of SPP1, individually form one or two gene cluster(s) on each corresponding genome. Furthermore, we constructed phylogenetic trees using maximum likelihood method to estimate their evolution. The phylogenetic topology mostly supports two subclasses in some species, such as Cyprinus carpio, Sinocyclocheilus anshuiensis, S. grahamin, and S. rhinocerous, but not in the other examined fishes. By comparing the gene structures of recently reported candidate genes, SCPP1 and SCPP5, for determining scale phenotypes, we found that the hypothesis is suitable for Astyanax mexicanus, but denied by S. anshuiensis, even though they are both sparsely scaled for cave adaptation. Thus, we conclude that, although different fish species display similar scale phenotypes, the underlying genetic changes however might be diverse. In summary, this paper accelerates the recognition of the SCPP family in teleosts for potential scale evolution. [ABSTRACT FROM AUTHOR]

Published

2017

32. Neotype designation and redescription of Sinocyclocheilus cyphotergous (Dai) 1988, a rare and bizarre cavefish species distributed in China (Cypriniformes: Cyprinidae).

Author

Huang, Jinqing, Gluesenkamp, Andrew, Fenolio, Danté, Wu, Zhiqiang, and Zhao, Yahui

Subjects

AMBLYOPSIDAE, BIOLOGICAL specimens, FINS (Anatomy), ADIPOSE tissues, FISH habitats

Abstract

Sinocyclocheilus cyphotergous was described by Dai in 1988 as Gibbibarbus cyphotergous based on a single specimen collected in Luodian County, Guizhou Province, China. The holotype (the only one type specimen) has been lost and the original description was vague and was published in a report with limited circulation. A specimen collected from the type locality in 2015 was the basis for a detailed redescription of the species and designation of a neotype. Sinocyclocheilus cyphotergous can be distinguished from all other congeners by the following combination of characters: a humpback profile with a fleshy dorsal projection; a hard last unbranched ray of dorsal fin with a serrated rear edge; and nearly straight lateral line. This species is the only member of the genus with a fleshy dorsal projection composed of adipose tissue (either a bony projection located on the nape or fleshy humpback is present in all other species). The conservation status of S. cyphotergous is uncertain and most likely critical due to its limited distribution, apparent rarity (based on low frequency of detection), and the potential for increased impacts to its habitat due to diminished quantity and quality of groundwater. [ABSTRACT FROM AUTHOR]

Published

2017

33. THE CAVEFISH OREONECTES JIARONGENSIS CAN BE INDUCED TO DIFFERENTIATE AND RECOVER UNDER THE LIGHT CONDITION.

Author

Tielong XU, Huaiqing DENG, and Jiang ZHOU

Subjects

*FISH ecology, *AMBLYOPSIDAE, *SPECIES diversity, *EFFECT of light on fishes, *COLOR of fish

Abstract

This research indicated that one cave fish species of Oreonectes jiarongensis can recover the transparent to black under the light condition, this species belongs to the Oreonectes, Nemacheilinae, and distributes in Libo County, Guizhou Province, China. The changing process time was 14 days. This is the first time that suggests the cave vertebrates which lived in the dark environment not longer time could change the body color in the light environment, and has a new adaptive strategy for the darkness condition. The result may indicate that this species entrance the underground river not so long time, and the genes not mutation, which control the melanin express, it still has the physiological regulation mechanism under the light condition. [ABSTRACT FROM AUTHOR]

Published

2017

34. A Comparative Transcriptomic Analysis of Development in Two Astyanax Cavefish Populations.

Author

Stahl, Bethany A. and Gross, Joshua B.

Subjects

ORGANISMS, PHENOTYPES, GENE expression, ASTYANAX mexicanus, AMBLYOPSIDAE

Abstract

ABSTRACT Organisms that are isolated into extreme environments often evolve extreme phenotypes. However, global patterns of dynamic gene expression changes that accompany dramatic environmental changes remain largely unknown. The blind Mexican cavefish, Astyanax mexicanus, has evolved a number of severe cave-associated phenotypes including loss of vision and pigmentation, craniofacial bone fusions, increased fat storage, reduced sleep, and amplified nonvisual sensory systems. Interestingly, surface-dwelling forms have repeatedly entered different caves throughout Mexico, providing a natural set of 'replicate' instances of cave isolation. These surrogate 'ancestral' surface-dwelling forms persist in nearby rivers, enabling direct comparisons to the 'derived' cave-dwelling form. We evaluated changes associated with subterranean isolation by measuring differential gene expression in two geographically distinct cave-dwelling populations (Pachón and Tinaja). To understand the impact of these expression changes on development, we performed RNA-sequencing across four critical stages during which troglomorphic traits first appear in cavefish embryos. Gene ontology (GO) studies revealed similar functional profiles evolved in both independent cave lineages. However, enrichment studies indicated that similar GO profiles were occasionally mediated by different genes. Certain 'master' regulators, such as Otx2 and Mitf, appear to be important loci for cave adaptation, as remarkably similar patterns of expression were identified in both independent cave lineages. This work reveals that adaptation to an extreme environment, in two distinct cavefish lineages, evolves through a combination of unique and shared gene expression patterns. Shared expression profiles reflect common environmental pressures, while unique expression likely reflects the fact that similar adaptive traits evolve through diverse genetic mechanisms. [ABSTRACT FROM AUTHOR]

Published

2017

35. Cranial asymmetry arises later in the life history of the blind Mexican cavefish, Astyanax mexicanus.

Author

Powers, Amanda K., Davis, Erin M., Kaplan, Shane A., and Gross, Joshua B.

Subjects

*AMBLYOPSIDAE, *ASTYANAX mexicanus, *PERCOPSIFORMES, *CHONDROCRANIUM, *SENSE organs

Abstract

As a consequence of adaptation to the cave environment, the blind Mexican cavefish, Astyanax mexicanus, has evolved several cranial aberrations including changes to bone sizes, shapes and presence of numerous lateral asymmetries. Prior studies of cranial asymmetry in cavefish focused strictly on adult specimens. Thus, the extent to which these asymmetries emerge in adulthood, or earlier in the life history of cavefish, was unknown. We performed a geometric morphometric analysis of shape variation in the chondrocranium and osteocranium across life history in two distinct cavefish populations and surface-dwelling fish. The cartilaginous skull in juveniles was bilaterally symmetric and chondrocranial shape was conserved in all three populations. In contrast, bony skull shapes segregated into significantly distinct groups in adults. Cavefish demonstrated significant asymmetry for the bones surrounding the collapsed eye orbit, and the opercle bone posterior to the eye orbit. Interestingly, we discovered that cavefish also exhibit directional “bends” in skull shape, almost always biased to the left. In sum, this work reveals that asymmetric craniofacial aberrations emerge later in the cavefish life history. These abnormalities may mirror asymmetries in the lateral line sensory system, reflect a ‘handedness’ in cavefish swimming behavior, or evolve through neutral processes. [ABSTRACT FROM AUTHOR]

Published

2017

36. Length–weight relationships of four cavefish species from China.

Author

Niu, Chengyi, Luo, Jiahui, Yang, Junxing, and Zhao, Yahui

Subjects

*AMBLYOPSIDAE, *CYPRINIFORMES, *BIOLOGICAL extinction, *FISHING, FISH weight

Abstract

Summary: Length‐weight relationships (LWRs) were estimated for four cavefish species belonging to the genus Sinocyclocheilus (Cypriniformes: Cyprinidae) occurring in the Nanpanjiang River and Hongshuihe River, which constitute the upstream of the species, S. angularis, S. furcodorsalis, S. rhinocerous, and S. tileihornes, were collected from 2011 to 2017. The b values of LWRs of these four species ranged from 2.830 to 3.719 and the correlation coefficient values (R2) were high for all species. This is the first record of LWRs for cavefish species with the horn in FishBase database. [ABSTRACT FROM AUTHOR]

Published

2019

37. Lens apoptosis in the Astyanax blind cavefish is not triggered by its small size or defects in morphogenesis.

Author

Hinaux, Hélène, Recher, Gaëlle, Alié, Alexandre, Legendre, Laurent, Blin, Maryline, and Rétaux, Sylvie

Subjects

*BLINDNESS, *APOPTOSIS, *ASTYANAX, *AMBLYOPSIDAE, *MORPHOGENESIS, *OPHTHALMIC lenses

Abstract

Blindness is a convergent trait in many cave animals of various phyla. Astyanax mexicanus cavefish is one of the best studied cave animals; however the mechanisms underlying eye degeneration in this species are not yet completely understood. The lens seems to play a central role, but only relatively late differentiation defects have been implicated in the cavefish lens apoptosis phenotype so far. Here, we used genetic crosses between Astyanax cavefish and surface fish to confirm that during development, lens size is independent of retina size. We then investigated whether the small size of the cavefish lens could directly cause cell death. Laser ablation experiments of lens placode cells in surface fish embryos showed that a small lens size is not sufficient to trigger lens apoptosis. We further examined potential lens morphogenesis defects through classical histology and live-imaging microscopy. From lens placode to lens ball, we found that lens invagination and formation of the lens epithelium and fiber cells occur normally in cavefish. We conclude that the main and deleterious defect in the Astyanax cavefish lens must concern the molecular control of lens cell function. [ABSTRACT FROM AUTHOR]

Published

2017

38. The importance of selection in the evolution of blindness in cavefish.

Author

Cartwright, Reed A., Schwartz, Rachel S., Merry, Alexandra L., and Howell, Megan M.

Subjects

*AMBLYOPSIDAE, *BLINDNESS, *FISH population genetics, *FISH mutation, *ALLELES, *FISH migration

Abstract

Background: Blindness has evolved repeatedly in cave-dwelling organisms, and many hypotheses have been proposed to explain this observation, including both accumulation of neutral loss-of-function mutations and adaptation to darkness. Investigating the loss of sight in cave dwellers presents an opportunity to understand the operation of fundamental evolutionary processes, including drift, selection, mutation, and migration. Results: Here we model the evolution of blindness in caves. This model captures the interaction of three forces: (1) selection favoring alleles causing blindness, (2) immigration of sightedness alleles from a surface population, and (3) mutations creating blindness alleles. We investigated the dynamics of this model and determined selection-strength thresholds that result in blindness evolving in caves despite immigration of sightedness alleles from the surface. We estimate that the selection coefficient for blindness would need to be at least 0.005 (and maybe as high as 0.5) for blindness to evolve in the model cave-organism, Astyanax mexicanus. Conclusions: Our results indicate that strong selection is required for the evolution of blindness in cave-dwelling organisms, which is consistent with recent work suggesting a high metabolic cost of eye development. [ABSTRACT FROM AUTHOR]

Published

2017

39. How Does Evolution Explain Blindness in Cavefish?

Author

SMITH, MIKE U.

Subjects

*EVOLUTIONARY theories, *AMBLYOPSIDAE, *TACTILE adaptation, *SCIENTISTS, *SCIENCE clubs

Abstract

Commonly used evolution assessments often ask about the evolution of blindness in cavefish or salamanders, running speed in cheetahs, and/or the long necks of giraffes. Explaining the loss of function in cave animals, however, is more difficult than explaining evolution involving gains of function resulting from natural selection. In fact, the evolution of cavefish blindness is not yet well understood by scientists. This article presents the three current hypotheses for explaining the evolution of blindness in Mexican tetras (Astyanax mexicanus), related to the Next Generation Science Standards and the Advanced Placement curriculum. [ABSTRACT FROM AUTHOR]

Published

2017

40. Evolutionary Developmental Biology (Evo-Devo) Research in Latin America.

Author

Marcellini, Sylvain, González, Favio, Sarrazin, Andres F., Pabón‐Mora, Natalia, Benítez, Mariana, Piñeyro‐Nelson, Alma, Rezende, Gustavo L., Maldonado, Ernesto, Schneider, Patricia Neiva, Grizante, Mariana B., Da Fonseca, Rodrigo Nunes, Vergara‐Silva, Francisco, Suaza‐Gaviria, Vanessa, Zumajo‐Cardona, Cecilia, Zattara, Eduardo E., Casasa, Sofia, Suárez‐Baron, Harold, and Brown, Federico D.

Subjects

EVOLUTIONARY developmental biology, AMBLYOPSIDAE, GROUND finches, PLANT diversity, PLANT embryology

Abstract

ABSTRACT Famous for its blind cavefish and Darwin's finches, Latin America is home to some of the richest biodiversity hotspots of our planet. The Latin American fauna and flora inspired and captivated naturalists from the nineteenth and twentieth centuries, including such notable pioneers such as Fritz Müller, Florentino Ameghino, and Léon Croizat who made a significant contribution to the study of embryology and evolutionary thinking. But, what are the historical and present contributions of the Latin American scientific community to Evo-Devo? Here, we provide the first comprehensive overview of the Evo-Devo laboratories based in Latin America and describe current lines of research based on endemic species, focusing on body plans and patterning, systematics, physiology, computational modeling approaches, ecology, and domestication. Literature searches reveal that Evo-Devo in Latin America is still in its early days; while showing encouraging indicators of productivity, it has not stabilized yet, because it relies on few and sparsely distributed laboratories. Coping with the rapid changes in national scientific policies and contributing to solve social and health issues specific to each region are among the main challenges faced by Latin American researchers. The 2015 inaugural meeting of the Pan-American Society for Evolutionary Developmental Biology played a pivotal role in bringing together Latin American researchers eager to initiate and consolidate regional and worldwide collaborative networks. Such networks will undoubtedly advance research on the extremely high genetic and phenotypic biodiversity of Latin America, bound to be an almost infinite source of amazement and fascinating findings for the Evo-Devo community. [ABSTRACT FROM AUTHOR]

Published

2017

41. A new blind species of the cave genus Oreonectes from Guizhou, China (Nemacheilinae).

Author

Huaiqing Deng, Huamei Wen, Ning Xiao, and Jiang Zhou

Subjects

*AMBLYOPSIDAE, *BALITORIDAE, *CLASSIFICATION of fish, *CAVES, *FISH genetics

Abstract

This study aimed to describe a new specimen of cavefish collected from a karst cave in the Daqikong area of Libo County, Guizhou. Twenty-six cavefish specimens were collected and identified as a new species of Balitoridae: Nemacheilinae, and named Oreonectes daqikongensis sp. n. A genetic analysis was performed and showed that its genetic distances from Oreonectes shuilongensis and Oreonectes platycephalus are higher than intraspecific distances. Discovery of this species will be helpful to understand the distribution of Oreonectes. [ABSTRACT FROM AUTHOR]

Published

2016

42. Asymmetric Facial Bone Fragmentation Mirrors Asymmetric Distribution of Cranial Neuromasts in Blind Mexican Cavefish.

Author

Gross, Joshua B., Gangidine, Andrew, and Powers, Amanda K.

Subjects

*AMBLYOPSIDAE, *FACIAL bones, *FISH anatomy, *FISH ecology, *FRESHWATER fishes, *HYPOGEAN fishes

Abstract

Craniofacial asymmetry is a convergent trait widely distributed across animals that colonize the extreme cave environment. Although craniofacial asymmetry can be discerned easily, other complex phenotypes (such as sensory organ position and numerical variation) are challenging to score and compare. Certain bones of the craniofacial complex demonstrate substantial asymmetry, and co-localize to regions harboring dramatically expanded numbers of mechanosensory neuromasts. To determine if a relationship exists between this expansion and bone fragmentation in cavefish, we developed a quantitative measure of positional symmetry across the left-right axis. We found that three different cave-dwelling populations were significantly more asymmetric compared to surface-dwelling fish. Moreover, cave populations did not differ in the degree of neuromast asymmetry. This work establishes a method for quantifying symmetry of a complex phenotype, and demonstrates that facial bone fragmentation mirrors the asymmetric distribution of neuromasts in different cavefish populations. Further developmental studies will provide a clearer picture of the developmental and cellular changes that accompany this extreme phenotype, and help illuminate the genetic basis for facial asymmetry in vertebrates. [ABSTRACT FROM AUTHOR]

Published

2016

43. Response to conspecific chemical cues in surface- and cave-dwelling populations of Atlantic mollies, Poecilia mexicana.

Author

Jourdan, Jonas, Jordan, Max, Zimmer, Claudia, Eifert, Constanze, Arias-Rodriguez, Lenin, and Plath, Martin

Subjects

POECILIA, AMBLYOPSIDAE, MARINE habitats, SPECIES diversity, PHEROMONES, BEHAVIOR

Abstract

Cavefishes typically evolve sensory adaptations to compensate for the loss of visual orientation and communication in their naturally dark habitats. We compared the response to chemical cues from conspecifics between surface- and cave-dwelling populations of Atlantic mollies ( Poecilia mexicana) using dichotomous association preference tests. In one of the two described cave populations, females spent significantly more time in the preference zone containing chemical cues of conspecifics compared to the preference zone receiving control water, while no discrimination was detected in the other cave population and in two surface populations. Our findings suggest chemo-sensory adaptations in only one of two cave populations and independent evolutionary trajectories in both cave populations. [ABSTRACT FROM AUTHOR]

Published

2016

44. A pleiotropic interaction between vision loss and hypermelanism in Astyanax mexicanus cave x surface hybrids.

Author

Gross, Joshua B., Powers, Amanda K., Davis, Erin M., and Kaplan, Shane A.

Subjects

*VISION disorders, *ASTYANAX mexicanus, *LOCUS (Genetics), *PIGMENTATION disorders, *MELANOPHORES, *AMBLYOPSIDAE

Abstract

Background: Cave-dwelling animals evolve various traits as a consequence of life in darkness. Constructive traits (e.g., enhanced non-visual sensory systems) presumably arise under strong selective pressures. The mechanism(s) driving regression of features, however, are not well understood. Quantitative trait locus (QTL) analyses in Astyanax mexicanus Pachón cave x surface hybrids revealed phenotypic effects associated with vision and pigmentation loss. Vision QTL were uniformly associated with reductions in the homozygous cave condition, however pigmentation QTL demonstrated mixed phenotypic effects. This implied pigmentation might be lost through both selective and neutral forces. Alternatively, in this report, we examined if a pleiotropic interaction may exist between vision and pigmentation since vision loss has been shown to result in darker skin in other fish and amphibian model systems. Results: We discovered that certain members of Pachón x surface pedigrees are significantly darker than surface-dwelling fish. All of these "hypermelanic" individuals demonstrated severe visual system malformations suggesting they may be blind. A vision-mediated behavioral assay revealed that these fish, in stark contrast to surface fish, behaved the same as blind cavefish. Further, hypermelanic melanophores were larger and more dendritic in morphology compared to surface fish melanophores. However, hypermelanic melanophores responded normally to melanin-concentrating hormone suggesting darkening stemmed from vision loss, rather than a defect in pigment cell function. Finally, a number of genomic regions were coordinately associated with both reduced vision and increased pigmentation. Conclusions: This work suggests hypermelanism in hybrid Astyanax results from blindness. This finding provides an alternative explanation for phenotypic effect studies of pigmentation QTL as stemming (at least in part) from environmental, rather than exclusively genetic, interactions between two regressive phenotypes. Further, this analysis reveals persistence of background adaptation in Astyanax. As the eye was lost in cave-dwelling forms, enhanced pigmentation resulted. Given the extreme cave environment, which is often devoid of nutrition, enhanced pigmentation may impose an energetic cost. Such an energetic cost would be selected against, as a means of energy conservation. Thus, the pleiotropic interaction between vision loss and pigmentation may reveal an additional selective pressure favoring the loss of pigmentation in cave-dwelling animals. [ABSTRACT FROM AUTHOR]

Published

2016

45. Microsatellite Organization in the B Chromosome and A Chromosome Complement in Astyanax (Characiformes, Characidae) Species.

Author

Piscor, Diovani and Parise-Maltempi, Patricia P.

Subjects

*MICROSATELLITE repeats, *CHROMOSOMES, *ASTYANAX, *HETEROCHROMATIN, *AMBLYOPSIDAE

Abstract

The organization of microsatellites in B and sex chromosomes has been linked to chromosomal evolution in a number of animal groups. Here, the chromosomal organizations of (CA) 15, (GA) 15, (CG) 15, (GACA) 4, and (GATA) 8 microsatellites were examined in several Astyanax species with different diploid numbers: Astyanax mexicanus (2n = 50 + 1 B chromosome), A. altiparanae (2n = 50), A. marionae (2n = 48), A. fasciatus (2n = 46), and A. schubarti (2n = 36). The (CA) 15 and (GA) 15 microsatellites were dispersed across the chromosomes of A. altiparanae and A. fasciatus but were also observed as clusters (CA and GA for A. altiparanae, and CA for A. fasciatus ). In A. marionae and A. schubarti, the (CA) 15 and (GA) 15 microsatellites were dispersed but were also observed as clustered signals and coincident with heterochromatic regions. In all 4 of these species, the (CG) 15 and (GACA) 4 microsatellites were dispersed across chromosomes, and the (GATA) 8 microsatellite was co-localized with 5S rDNA. In A. mexicanus, the (CA)15 , (GA) 15 , (CG) 15 , (GATA)8, and (GACA)4 microsatellites were weakly detected and dispersed across the chromosomes of the A complement. On the B chromosome, signals for the different microsatellites were weak, strong, absent, weak, and absent, respectively. The distribution of microsatellites and the locational relationship between microsatellites and 5S rDNA are discussed, and a possible evolutionary pathway is proposed for microsatellites in Astyanax. [ABSTRACT FROM AUTHOR]

Published

2016

46. Go West: A One Way Stepping-Stone Dispersion Model for the Cavefish Lucifuga dentata in Western Cuba.

Author

Hernández, Damir, Casane, Didier, Chevalier-Monteagudo, Pedro, Bernatchez, Louis, and García-Machado, Erik

Subjects

*AMBLYOPSIDAE, *MAMMAL dispersal, *GEOGRAPHICAL distribution of fishes, *ANIMAL species, *VICARIANCE, *FISHES

Abstract

Consistent with the limited dispersal capacity of most troglobitic animals, almost all Lucifuga cavefish species have very narrow geographic distribution in Cuba. However, one species, L. dentata, has a wide but disjointed distribution over 300 km in the west of the island. In order to estimate the relative role of vicariance and dispersal in the unexpected L. dentata distribution, we obtained partial sequences of the mitochondrial DNA (mtDNA) cytochrome b (cytb) gene and control region (CR), and then applied Approximate Bayesian Computation (ABC), based on the identification of five genetic and geographic congruent groups of populations. The process that best explains the distribution of genetic diversity in this species is sequential range expansion from east Matanzas to the western Pinar del Río provinces, followed by isolation of groups of populations. We found relative high haplotype diversity and low nucleotide diversity in all but the Havana group, which has high values for both diversity parameters, suggesting that this group has been demographically stable over time. For two groups of populations (Cayuco and Bolondrón), the mismatch distribution analyses suggests past demographic expansion. In the case of the Cayuco region, the star like relationships of haplotypes in the network suggests a recent founding event, congruent with other evidence indicating that this is the most recently colonized region. Over all, the results suggest that a combination of habitat availability, temporal interconnections, and possibly the biological properties of this species, may have enabled its dispersal and range expansion compared to other species of the genus, which are more geographically restricted. [ABSTRACT FROM AUTHOR]

Published

2016

47. Water quality and biotic interaction of two cavefish species: Typhleotris madagascariensis Petit, 1933 and Typhleotris mararybe Sparks & Chakrabarty, 2012, in the Mahafaly Plateau groundwater system, Madagascar.

Author

Rasoloariniaina, Jean R., Ganzhorn, Jörg U., Riemann, Jana C., and Raminosoa, Noromalala

Subjects

*WATER quality, *AMBLYOPSIDAE, *UNDERGROUND ecology, *SPECIES distribution

Abstract

The karstic subterranean aquatic system of the Mahafaly Plateau in south-western Madagascar is inhabited by two species of cavefish: Typhleotris madagascariensis and Typhleotris mararybe. Knowledge about both cavefish species is scant. In order to learn more about the distribution of the two species, 15 caves and sinkholes spread over the Mahafaly Plateau were inventoried for their presence. Abiotic water quality and interspecific relations of the two species were investigated in six of these caves and five of the sinkholes during the dry and the rainy seasons. Typhleotris madagascariensis was present in all sampled water bodies while T. mararybe was restricted to five sites in the region around the town of Itampolo. The inventories extend the known range of both species of Typhleotris on the Mahafaly Plateau. Abiotic water characteristics did not differ between seasons. The abundances of both species were negatively correlated with iron concentrations. Further correlations between the abundance of either fish species and abiotic water characteristics remained inconclusive as these water characteristics co-varied with geographical latitude that in turn was correlated with fish abundance. For both species neither the abundance nor a condition factor based on body mass showed any significant seasonal variation. Also the presence of T. mararybe had no influence on the abundance and the condition of T. madagascariensis. Thus, no evidence for competition was noticed between the two species. [ABSTRACT FROM AUTHOR]

Published

2016

48. Evolution: A Dark Past.

Author

Rohner, Nicolas

Subjects

*AMBLYOPSIDAE, *DNA repair, *BIOLOGICAL evolution, *BIOLOGICAL adaptation, *PROTECTIVE clothing

Abstract

Summary The cavefish Phreatichthys andruzzii has lost the capacity to perform light-mediated DNA repair. This finding provides further support for the 'nocturnal bottleneck' hypothesis which posits that many key mammalian traits originated from adaptations linked to the nocturnal lifestyle of our early evolutionary ancestors. The cavefish Phreatichthys andruzzii has lost the capacity to perform light-mediated DNA repair. This finding provides further support for the 'nocturnal bottleneck' hypothesis which posits that many key mammalian traits originated from adaptations linked to the nocturnal lifestyle of our early evolutionary ancestors. [ABSTRACT FROM AUTHOR]

Published

2018

49. Cavefish as an evolutionary mutant model system for human disease.

Author

Rohner, Nicolas

Subjects

*AMBLYOPSIDAE, *GENETIC mutation, *DISEASES, *DEVELOPMENTAL biology, *BIOLOGICAL evolution

Published

2018

50. Chromosomal mapping of H3 histone and 5S rRNA genes in eight species of Astyanax (Pisces, Characiformes) with different diploid numbers: syntenic conservation of repetitive genes.

Author

Piscor, Diovani, Parise-Maltempi, Patricia Pasquali, and Puertas, M.

Subjects

*ASTYANAX, *GENE mapping, *HISTONE genetics, *CHARACIFORMES, *AMBLYOPSIDAE, *KARYOTYPES, *FISHES

Abstract

The genus Astyanax is widely distributed from the southern United States to northern Patagonia, Argentina. While cytogenetic studies have been performed for this genus, little is known about the histone gene families. The aim of this study was to examine the chromosomal relationships among the different species of Astyanax. The chromosomal locations of the 5S rRNA and H3 histone genes were determined in A. abramis, A. asuncionensis, A. altiparanae, A. bockmanni, A. eigenmanniorum, A. mexicanus (all 2 n = 50), A. fasciatus (2 n = 46), and A. schubarti (2 n = 36). All eight species exhibited H3 histone clusters on two chromosome pairs. In six species ( A. abramis, A. asuncionensis, A. altiparanae, A. bockmanni, A. eigenmanniorum, and A. fasciatus), syntenic clusters of H3 histone and 5S rDNA were observed on metacentric (m) or submetacentric (sm) chromosomes. In seven species, clusters of 5S rDNA sequences were located on one or two chromosome pairs. In A. mexicanus, 5S rDNA clusters were located on four chromosome pairs. This study demonstrates that H3 histone clusters are conserved on two chromosome pairs in the genus Astyanax, and specific chromosomal features may contribute to the genomic organization of the H3 histone and 5S rRNA genes. [ABSTRACT FROM AUTHOR]

Published

2016