Proteins

Analysis of the Survival Mechanisms of Hydra

Abstract This paper aims to get a better understanding of the physical properties of Hydras. It describes the structure of the body of the Hydra as well as its behavior and interactions with its environment, with a focus on physics. Despite its relatively simple nervous system, characterized by a nerve

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AN INVESTIGATION INTO THE CHEMICAL PROPERTIES OF GONIUM

ABSTRACT  Gonium is a genus of multicellular green algae with chemical systems of high complexity developed by generations of evolution. Gonium is an autotroph and exhibits a variety of chemical photocycles that control its behavior without a central nervous system. Because Gonium has no cellular differentiation, chemical systems exist separately

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The Biochemical Features of Tardigrades and Their Roles in Maintaining Cellular Functional Integrity

Extensive studies have been carried out regarding tardigrades’ so-called tun state as a means of survival in the face of all sorts of harsh environmental conditions. While the surviving capabilities of tardigrades in inhospitable habitats are outstanding and worth examining, many of the ways by which they succeed in maintaining…

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Mathematical Models of Diatoms: Understanding Their Complex Shape, Reproduction and Chain Formation

Apart from physical and chemical solutions used by the diatom for survival, some features of the unicellular microalgae also could be described in mathematics. For instance, the diatom morphology reveals a striking alignment with the golden ratio and fractal geometry. By examining the silica shells of these unicellular algae, we…

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Physical Analysis of Amoeba

Out of all the types of cell migration, amoeboid movement is studied very extensively due to its use by important biological components such as white blood cells. Despite the attention it has received, this type of cell movement has yet to be fully understood. Examining it from different perspectives helps…

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An Evolutionary Analysis of the Chemical Composition of Marine Suction Cups

Abstract Suction cups are important adaptations for aquatic animals, allowing for predation, locomotion, stability, and other species-specific functions. The chemical structure of each suction cup is designed by nature to be as energetically efficient as possible in performing the suction cup’s species-specific purpose, giving the suction cup chemical properties that…

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From Fetus to Fossil: A Microscopic Analysis of the Chemistry of the Hoof Throughout the Stages of Life

Abstract Hooves are morphologically complex structures among ungulates that support body weight and provide traction to assist their adaptation to various external environments. This article aims to investigate the differences in hooves throughout the stages of life. The perspective narrows from the general topic of hooves down to the fascinating…

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Mechanical Analysis of Animal Horns

This essay dives into animal horns and the physical composition, mechanical properties, and ingenious designs that make them incredibly effective at everything they do. It features a selection of horn structures from different organisms in the animal kingdom, which demonstrates the diversity of horn structures while also showing the uniform…

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Biomolecular Applications of Animal Horns

Ovis canadensis (“Bighorn Sheep,” 2022) Chemistry is the basis of life. Behind every thought, feeling, movement, or biological function, there are a series of chemical reactions occurring. With this said, it comes as no surprise that the chemical composition of animal horns plays a vital role in the mechanical properties,…

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The Life Cycle of the Whiskers and Antennae of Animals and Insects 

This article explores the various chemical, cellular, and molecular mechanisms relevant to the life cycle of whiskers (barbels) and antennae. The growth of zebrafish barbel is characterized by elongation, vasculature development, and innervation of taste buds. Catfish barbels perform chemical and mechanical sensing; namely, their hyper-sensitive gustatory system enables catfish…

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Spiky Surprises: The Chemistry of Spines and Quills

Many organisms possess an internal defense mechanism, intrinsic properties, and behaviors adapted for their survival. Spines and quills differ immensely across families, and this disparity is exacerbated further amongst taxa. Environmental pressures such as resource availability can result in various chemical and structural design mechanisms for spines and quills. However,…

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