Properties of fibrous and globular proteins?

Answer 1

Fibrous proteins are formed from the folding of beta pleated sheets and have a secondary, tertiary and quaternary structure. Globular proteins are formed from the coiling of alpha helices and have a tertiary and quaternary structure.

I hope that helps!!!

Answer 2

Fibrous proteins have an elongated structure, are insoluble and secondary structure forms the dominant structure.

Globular proteins are spheroidal, soluble and have a tertiary (sometimes Quaternary) structure.

Answer 3

Fibrous proteins are highly elongated molecules whose secondary structures are their dominant structural motifs. We can recognize four major types of fibrous proteins:

1. A Helix of helices, the most typical is the keratin, that is a mechanically durable and chemical unreactive protein that occurs in all higher vertebrates. The most common keratin is the alpha-keratin.
2. A Beta pleated sheet. This fibrous protein conformation is common in instects and arachnids that produce silk to fabricate structures such as cocoons, webs, nests, and egg stalks. Most silks are made of the fibrous protein fibroin and a gummy amorphous protein called sericin that cements the fibroin fibers together.
3. A Triple helical cable. Collagen, the most representative of this kind of fibrous proteins, occurs in al multicellular organisms and is the most abundant protein in vertebrates. Its an extracellular protein that is organized into insoluble fibers of great tensile strenght. For this reason is the major component of connective tissues (e.g., bones, cartilague, teeth, tendon, ligament, skin and blood vessels).
4. A Nonrepetitive coil. A fibrous protein with this conformation is the elastin that has rubberlike elastic properties whose fibers can stretch to several times their normal length.
   

Globular proteins comprise a highly diverse group of substances that, in their native state, exist as compact spheroidal molecules. One major group of globular proteins is conformed by the enzymes. In globular proteins there are a diversity of structural elements, called supersecondary structures or motifs, e.g., beta-alpha-beta motif, beta hairpin motif, alpha-alpha motif, and beta barrels.

Answer 4

Fibrous proteins have an elongated, fibrous shape and provide structural support in tissues and cells. Examples include collagen and keratin. Globular proteins have a compact, spherical shape and diverse functions such as enzymes, antibodies, and transport proteins. Examples include hemoglobin and enzymes like amylase.

Answer 5

I think that Fibrous proteins have a primary, secondary and tertiary structure whereas globular proteins will have all of those plus a quaternary structure. I hope that helps!!

Answer 6

DNA is a nucleic acid composed of base pairs used for information storage and fibrous proteins are proteins composed of amino acids used for structure.