Protein filament in the context of "Cytoskeleton"

Hair is a protein filament that grows from follicles found in the dermis. Hair is one of the defining characteristics of mammals.The human body, apart from areas of glabrous skin, is covered in follicles which produce thick terminal and fine vellus hair. Most common interest in hair is focused on hair growth, hair types, and hair care, but hair is also an important biomaterial primarily composed of protein, notably alpha-keratin.

Attitudes towards different forms of hair, such as hairstyles and hair removal, vary widely across different cultures and historical periods, but it is often used to indicate a person's personal beliefs or social position, such as their age, gender, or religion.

The growth of human hair occurs everywhere on the external body except for the soles of the feet, the palms of the hands, the lips, the backs of the ears, some external genital areas, the navel, and, apart from eyelashes, the eyelids. Hair is a stratified squamous keratinized epithelium made of multi-layered flat cells whose rope-like filaments provide structure and strength to the hair shaft. The protein keratin makes up hair and stimulates hair growth. Hair follows a specific growth cycle with three distinct and concurrent phases: anagen, catagen, and telogen. Each phase has specific characteristics that determine the length of the hair.

The body has different types of hair, including vellus hair and androgenic hair, each with its own type of cellular construction. This varied construction gives the hair unique characteristics, serving specific purposes, mainly warmth (redundant in modern humans) and physical protection. Most humans develop the longest thickest hair on their scalps and (mostly observed in males) faces. This hair will usually grow to several feet, but some humans develop much longer hair.

Neurofibrillary tangles (NFTs) are intracellular aggregates of hyperphosphorylated tau protein that are most commonly known as a primary biomarker of Alzheimer's disease. NFTs also are present in numerous other diseases known collectively as tauopathies. Little is known about their exact relationship to the different pathologies, but it is typically recognized that tauopathy is an important factor in the pathogenesis of several neurodegenerative diseases.

NFTs consist primarily of a misfolded, hyperphosphorylated microtubule-associated protein known as tau, which abnormally polymerizes into insoluble filaments within cells. Under the electron microscope, these polymers of tau are seen to take two basic forms: paired helical filaments (PHFs) and straight filaments. These basic types of tau filaments can vary structurally, especially in different tauopathies. The filaments bundle together to form the neurofibrillary tangles that are evident under the light microscope. Classical NFTs are located within the neuronal cell body, although it is now recognized that abnormal, filamentous tau occurs also in neuronal dendrites and axons (referred to as neuropil threads) and the dystrophic (abnormal) neurites that surround neuritic Abeta plaques. Mature NFTs in cell bodies can have a torch-like or globose appearance, depending on the type of neuron involved. When tangle-containing neurons die, the tangles can remain in the neuropil as extracellular "ghost tangles".

Fibrils (from Latin fibra) are structural biological materials found in nearly all living organisms. Not to be confused with fibers or filaments, fibrils tend to have diameters ranging from 10 to 100 nanometers (whereas fibers are micro to milli-scale structures and filaments have diameters approximately 10–50 nanometers in size). Fibrils are not usually found alone but rather are parts of greater hierarchical structures commonly found in biological systems. Due to the prevalence of fibrils in biological systems, their study is of great importance in the fields of microbiology, biomechanics, and materials science.