Consequences of lost endings: caudal autotomy as a lens for focusing attention on tail function during locomotion

AbstractWe used an RT-PCR-based sequencing approach to identify the mutations responsible for 17 viable dilute alleles, a mouse-coat-color locus encoding unconventional myosin-VA. Ten of the mutations mapped to the MyoVA tail and are reported here. These mutations represent the first extensive collection of tail mutations reported for any unconventional mammalian myosin. They identify sequences important for tail function and identify domains potentially involved in cargo binding and/or proper folding of the MyoVA tail. Our results also provide support for the notion that different myosin tail isoforms produced by alternative splicing encode important cell-type-specific functions.

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Unraveling the mystery of histone tail function in nucleosome unwinding

Scilight ◽

10.1063/1.5108906 ◽

2019 ◽

Vol 2019 (19) ◽

pp. 190007

Author(s):

Jodi Ackerman Frank

Keyword(s):

Histone Tail ◽

Tail Function

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Flexibility of Heterocercal Tails: What Can the Functional Morphology of Shark Tails Tell Us about Ichthyosaur Swimming?

Integrative Organismal Biology ◽

10.1093/iob/obz002 ◽

2019 ◽

Vol 1 (1) ◽

Cited By ~ 1

Author(s):

S B Crofts ◽

R Shehata ◽

B E Flammang

Keyword(s):

Functional Morphology ◽

Flexural Stiffness ◽

Cross Sectional ◽

Text Book ◽

Structural Differences ◽

Thresher Shark ◽

Cross Sectional Profile ◽

The Common ◽

Sectional Profile ◽

Tail Function

Synopsis The similarities between ichthyosaurs and sharks are a text-book example of convergence, and similarities in tail morphology have led many to theorize that they had similar swimming styles. The variation of ichthyosaur tail shapes is encompassed within the diversity of shark families. In particular early ichthyosaurs have asymmetrical tails like the heterocercal tails of carcharhinid sharks, while later occurring ichthyosaurs have lunate tails similar to those of lamnid sharks. Because it is not possible to measure ichthyosaur tail function, the goal of this study is to measure and compare the flexibility and stiffness of lunate and heterocercal shark tails, and to measure skeletal and connective tissue features that may affect tail flexibility. We measured flexibility in 10 species and focused on five species in particular, for dissection: one pelagic and one bottom-associated individual from each order, plus the common thresher shark (Alopias vulpinus), a tail-slapping specialist. As expected, lunate tails were overall less flexible than heterocercal tails and had greater flexural stiffness. Our results suggest that the cross-sectional profile of the skeletally supported dorsal lobe dictates flexural stiffness, but that changing tissue composition dictates flexural stiffness in the ventral lobe. We also found structural differences that may enable the tail slapping behavior of the common thresher shark. Finally, we discuss how our morphological measurements compare to ichthyosaur measurements from the literature; noting that similarities in functional morphology suggest sharks may be a good analog for understanding ichthyosaur swimming biomechanics.

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The Anatomy and Histology of Caudal Autotomy and Regeneration in Lizards

Physiological and Biochemical Zoology ◽

10.1086/673889 ◽

2013 ◽

Vol 86 (6) ◽

pp. 631-644 ◽

Cited By ~ 54

Author(s):

Emily A. B. Gilbert ◽

Samantha L. Payne ◽

Matthew K. Vickaryous

Keyword(s):

Caudal Autotomy

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Effect of body size on tail regeneration and recovery of swimming performance after caudal autotomy in a plethodontid salamander

Amphibia-Reptilia ◽

10.1163/156853811x601645 ◽

2011 ◽

Vol 32 (4) ◽

pp. 485-492 ◽

Cited By ~ 3

Author(s):

Glenn A. Marvin

Keyword(s):

Body Size ◽

Swimming Performance ◽

Tail Regeneration ◽

Plethodontid Salamander ◽

Caudal Autotomy

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Tail function during arboreal quadrupedalism in squirrel monkeys (Saimiri boliviensis) and tamarins (Saguinus oedipus)

Journal of Experimental Zoology Part A Ecological Genetics and Physiology ◽

10.1002/jez.1948 ◽

2015 ◽

pp. n/a-n/a ◽

Cited By ~ 3

Author(s):

Jesse W. Young ◽

Gabrielle A. Russo ◽

Connie D. Fellmann ◽

Meena A. Thatikunta ◽

Brad A. Chadwell

Keyword(s):

Squirrel Monkeys ◽

Saguinus Oedipus ◽

Saimiri Boliviensis ◽

Tail Function ◽

Arboreal Quadrupedalism

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Tail regeneration after autotomy revives survival: a case from a long-term monitored lizard population under avian predation

Proceedings of The Royal Society B Biological Sciences ◽

10.1098/rspb.2016.2538 ◽

2017 ◽

Vol 284 (1847) ◽

pp. 20162538 ◽

Cited By ~ 11

Author(s):

Jhan-Wei Lin ◽

Ying-Rong Chen ◽

Ying-Han Wang ◽

Kuen-Chih Hung ◽

Si-Min Lin

Keyword(s):

Cost Benefit ◽

Predation Pressure ◽

Natural Conditions ◽

Tail Regeneration ◽

Tail Loss ◽

Avian Predators ◽

Predatory Birds ◽

The Cost ◽

Caudal Autotomy

Caudal autotomy in lizards has intrigued scientists for more than 100 years. Because of the relative lack of literature under natural conditions, the complicated association among field autotomy rate, real predation pressure, the long-term cost of tail loss, and the benefit of regeneration remains equivocal. In this study, we conducted a 7-year capture–mark–recapture (CMR) programme with a wild population of a sexually dichromatic lizard, Takydromus viridipunctatus . We used autotomy indexes and a contemporary bird census mega-dataset of four predatory birds as predictors to examine the association between tail loss and predation pressure. We further estimated the survival cost of tail loss and alleviation by regeneration under natural conditions through CMR modelling. We found that large and small avian predators affect lizard survival through the following two routes: the larger-sized cattle egret causes direct mortality while the smaller shrikes and kestrels are the major causes of autotomy. Following autotomy, the survival rate of tailless individuals over the next month was significantly lower than that of tailed individuals, especially males during the breeding season, which showed a decline of greater than 30%. This sex-related difference further demonstrated the importance of reproductive costs for males in this sexually dichromatic species. However, the risk of mortality returned to baseline after the tails were fully grown. This study indicates the benefit of tail regeneration under natural conditions, which increases our understanding of the cost–benefit dynamics of caudal autotomy and further explains the maintenance of this trait as an evolutionarily beneficial adaption to long-term predator–prey interactions.

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Deceived by stripes: conspicuous patterning on vital anterior body parts can redirect predatory strikes to expendable posterior organs

Royal Society Open Science ◽

10.1098/rsos.160057 ◽

2016 ◽

Vol 3 (6) ◽

pp. 160057 ◽

Cited By ~ 13

Author(s):

Gopal Murali ◽

Ullasa Kodandaramaiah

Keyword(s):

Mechanistic Explanation ◽

The Body ◽

Body Parts ◽

Psychophysical Procedure ◽

Anterior Half ◽

Anterior Body ◽

Caudal Autotomy

Conspicuous coloration, which presumably makes prey more visible to predators, has intrigued researchers for long. Contrastingly coloured, conspicuous striped patterns are common among lizards and other animals, but their function is not well known. We propose and test a novel hypothesis, the ‘redirection hypothesis’, wherein longitudinal striped patterns, such as those found on the anterior body parts of most lacertilians, redirect attacks away from themselves during motion towards less vulnerable posterior parts, for example, the autotomous tail. In experiments employing human ‘predators’ attacking virtual prey on a touchscreen, we show that longitudinal striped patterns on the anterior half of prey decreased attacks to the anterior and increased attacks to the posterior. The position of stripes mattered—they worked best when they were at the anterior. By employing an adaptive psychophysical procedure, we show that prey with striped patterning are perceived to move slower, offering a mechanistic explanation for the redirective effect. In summary, our results suggest that the presence of stripes on the body (i.e. head and trunk) of lizards in combination with caudal autotomy can work as an effective anti-predator strategy during motion.

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