Choose one of the following terms to match the description 1 given in statements \((1)-(17) .\) All of the following pertain to proteins or carbohydrates. a. aldohexose b. saliva c. cellulose d. \(\mathrm{CH}_{2} \mathrm{O}\) e. cysteine f. denaturation g. disaccharides h. disulfide i. globular j. glycogen k. glycoside linkage I. hydrophobic m. ketohexoses n. oxytocin o. pleated sheet p. polypeptide q. primary structure (1) polymer consisting of many amino acids (2) linkage that forms between two cysteine species (3) peptide hormone that triggers milk secretion (4) proteins with roughly spherical shape (5) sequence of amino acids in a protein (6) silk protein secondary structure (7) water-repelling amino acid side chain (8) amino acid responsible for permanent wave in hair (9) breakdown of a protein's tertiary and/or secondary structure (10) animal polymer of glucose (11) \(-\mathrm{C}-\mathrm{O}-\mathrm{C}-\) bond between rings in disaccharide sugars (12) empirical formula leading to the name carbohydrate (13) where enzymes catalyzing the breakdown of glycoside linkages are found (14) six-carbon ketone sugars (15) structural component of plants, polymer of glucose (16) sugars consisting of two monomer units (17) six-carbon aldehyde sugars

Step by step solution

01

Match term to statement

The correct term for this statement is 'polypeptide' (p). (2) Linkage that forms between two cysteine species

02

Match term to statement

The correct term for this statement is 'disulfide' (h). (3) Peptide hormone that triggers milk secretion

03

Match term to statement

The correct term for this statement is 'oxytocin' (n). (4) Proteins with roughly spherical shape

04

Match term to statement

The correct term for this statement is 'globular' (i). (5) Sequence of amino acids in a protein

05

Match term to statement

The correct term for this statement is 'primary structure' (q). (6) Silk protein secondary structure

06

Match term to statement

The correct term for this statement is 'pleated sheet' (o). (7) Water-repelling amino acid side chain

07

Match term to statement

The correct term for this statement is 'hydrophobic' (l). (8) Amino acid responsible for permanent wave in hair

08

Match term to statement

The correct term for this statement is 'cysteine' (e). (9) Breakdown of a protein's tertiary and/or secondary structure

09

Match term to statement

The correct term for this statement is 'denaturation' (f). (10) Animal polymer of glucose

10

Match term to statement

The correct term for this statement is 'glycogen' (j). (11) -C-O-C- bond between rings in disaccharide sugars

11

Match term to statement

The correct term for this statement is 'glycoside linkage' (k). (12) Empirical formula leading to the name carbohydrate

12

Match term to statement

The correct term for this statement is 'CH₂O' (d). (13) Where enzymes catalyzing the breakdown of glycoside linkages are found

13

Match term to statement

The correct term for this statement is 'saliva' (b). (14) Six-carbon ketone sugars

14

Match term to statement

The correct term for this statement is 'ketohexoses' (m). (15) Structural component of plants, polymer of glucose

15

Match term to statement

The correct term for this statement is 'cellulose' (c). (16) Sugars consisting of two monomer units

16

Match term to statement

The correct term for this statement is 'disaccharides' (g). (17) Six-carbon aldehyde sugars

17

Match term to statement

The correct term for this statement is 'aldohexose' (a).

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Key Concepts

These are the key concepts you need to understand to accurately answer the question.

Protein Structure

Understanding protein structure is essential for grasping how these molecular machines carry out a multitude of functions in living organisms. Proteins are made up of amino acids that link together to form long chains called polypeptides. These chains fold into specific shapes dictated by interactions between the amino acids, such as hydrogen bonds and disulfide bonds.

The primary structure refers simply to the sequence of amino acids, which determines the higher-level structures the protein can adopt. Secondary structures include alpha helices and beta pleated sheets, which are stabilized by hydrogen bonding and create patterns within the protein. Tertiary structure is the overall three-dimensional shape of a single protein molecule, while quaternary structure refers to the complex of multiple protein molecules or polypeptide chains. Changes in structure, such as denaturation, can lead to a loss of function, underscoring the importance of protein structure in biochemistry education.

Carbohydrates

Carbohydrates play a pivotal role in providing energy and structural materials in living organisms. They are composed of carbon, hydrogen, and oxygen, typically with the empirical formula \( CH_2O \), hence their name. Carbohydrates are categorized based on their size or the number of sugar units they contain: monosaccharides like glucose are the simplest form, with disaccharides, such as lactose, being formed by two sugar units linked by glycoside linkages.

Aldohexoses and ketohexoses are six-carbon sugars that differ in the placement of their carbonyl groups. Aldohexoses, such as glucose, have an aldehyde group at the end of the carbon chain, while ketohexoses, like fructose, have a ketone group in the middle of the chain. Both types of hexoses are important energy sources and building blocks for larger carbohydrates.

Amino Acids

Amino acids are the building blocks of proteins, each featuring a central carbon atom, an amino group, a carboxyl group, and a distinctive side chain. The side chains, also known as R groups, can be categorized based on their properties such as hydrophobic, which avoids water, or hydrophilic, which is attracted to water. Some amino acids, such as cysteine, can form disulfide bonds, which are sulfur-sulfur links that help stabilize proteins' three-dimensional structures. The diversity of amino acids and the sequence in which they are arranged determine a protein's structure and function.

Polysaccharides

Polysaccharides are long carbohydrate molecules composed of monosaccharide units bonded together. They serve various functions, from storage of energy to providing structural support. Glycogen, for instance, is an animal polysaccharide that efficiently stores glucose for energy. Cellulose, on the other hand, is a crucial structural component in plant cell walls. Though both glycogen and cellulose are polymers of glucose, the glycoside linkages in cellulose make it tough and indigestible for most animals, highlighting the importance of bond types and arrangements in polysaccharide functions.

Enzymatic Reactions

Enzymatic reactions are fundamental to metabolic processes, with enzymes acting as catalysts that accelerate chemical reactions without being consumed. For instance, enzymes in saliva, such as amylase, catalyze the breakdown of glycoside linkages in starches to sugars, aiding in digestion. Enzymes work by lowering the activation energy of a reaction, ensuring that bodily processes occur rapidly enough to sustain life. They have remarkable specificity, usually catalyzing only one kind of reaction, which is a testament to the intricacy of biological function at the molecular level.