Chapter 2: Processes for the Continuity of Life Flashcards

Question

Define a protein

Answer 1

a protein is a block of amino acids that are joined via peptide bonds

Answer 2

structural proteins = maintain cell shape enzymes = act as biological catalysts can act has hormones can be antibodies for immunity

Answer 3

Enzymes are proteins that act as biological catalysts, facilitating a reaction with substrate molecules. An example of an enzyme is sucrase, which breaks down sucrose into fructose and glucose. Structural proteins provide cells and tissues with its structural properties. An example of this is collagen, which provides skin and bone with its flexibility. Unlike enzymes, structural proteins do not have metabolic function.

Answer 4

Transcription Initially, the double-stranded DNA unzips and a promoter molecule binds to the start of the gene of the enzyme. RNA polymerase binds to the promoter, allowing transcription of the gene. RNA polymerase uses free nucleotides in the nucleus to synthesise a complementary template of the gene known as mRNA. However, it is single-stranded and the thymine nucleotide is replaced by uracil. In eukaryotes, the mRNA is then modified. Translation The mRNA then leaves the nucleus, entering the cytoplasm, where ribosomes bind to it. Each set of three nucleotides on the mRNA is a codon. tRNA with the complementary anticodon bind to the mRNA in the ribosome. Each tRNA has a specific amino acid attached to it, that corresponds to its anticodon. The ribosome forms a peptide bond between this amino acid and the existing polypeptide chain. As such, the sequence of amino acids added to the growing polypeptide chain corresponds to the sequence of codons on the mRNA. A specific codon on the mRNA signals the translation to stop, completing the polypeptide enzyme.

Answer 5

tRNA molecules consist of nucleic acid, and they have an anticodon and an amino acid binding region. The amino acid binding region is specific to only one type of amino acid. It binds to its amino acid in the cytoplasm. Then, the anticodon recognises and binds to its complementary codon sequence on the mRNA as it is being translated at the ribosome. The ribosome attaches the amino acid to the growing polypeptide chain, in accordance with the mRNA sequence.

Answer 6

Both proteins and polypeptides are composed of amino acids. Polypeptides, however, are single amino acid chains, whereas proteins are made up of one or more polypeptides.

Answer 7

Two types of RNA are mRNA and tRNA. The code contained in the DNA molecule is copied into an mRNA molecule. The mRNA molecule is then able to move out of the nucleus and into the cytoplasm where it binds with a ribosome. In the ribosome, tRNA (which carries specific amino acids) interacts with the mRNA by binding with the complementary triplet codon on the mRNA molecule. In this way, successive amino acids bind to each other to produce a polypeptide.

Answer 8

Genes are lengths of DNA. The building blocks of DNA are four different types of nucleotides with the bases adenine, thymine, cytosine and guanine. Within the DNA triplets of bases form codons that represent the genetic code for the production of a polypeptide. Genes provide the template for the production of mRNA which carries a copy of the genetic information to the ribosomes. Ribosomes translate the mRNA codons into a chain of amino acids called a polypeptide. This polypeptide folds into a specific shape, depending on the amino acids present in the chain. Several polypeptide chains may combine to form a larger protein structure such as haemoglobin. If the nucleotide sequence of a gene changes this may or may not change the polypeptide/protein that it codes for as there are various codons that code for each amino acid. The sequence and types of amino acids determine the function of a protein. This is because the amino acids determine the shape and the chemical properties of a protein. Both the shape and the chemical properties of proteins determine their function. For example, enzymes are globular proteins with an active site that has specific physical and chemical properties determined by the amino acids present. Proteins can interact with DNA and promote or inhibit the expression of genes. In this way, a protein produced as a result of a gene may influence the transcription of other genes. One example of this is a gene cascade where the protein product of a gene results in a cascade of effects on a series of other genes that control the development of a limb in mammals. While proteins have some influence on genes, genes are a more powerful influence on proteins and therefore evolution.

Answer 9

the order of animo acids in each protein follows a sequence which is coded for by its gene

Answer 10

a section of DNA that contains instructions for making an RNA molecule or a protein.

Answer 11

telomeres are the structural components of DNA found at the ends of chromosomes.

Answer 12

functional RNA includes any RNA that isn't mRNA. e.g. tRNA is used to carry amino acids to the ribosome during protein synthesis, & rRNA which plays an important role in the ribosome.

Answer 13

these sections of DNA are transcribed but are removed from mRNA before translation. introns are removed from DNA by splicing.

Answer 14

coding dna is dna that is transcribed and then translated into proteins

Answer 15

Non-coding DNA is DNA that does not code for proteins.

Answer 16

DNA is found in the nucleus of all cells, where its nucleotide sequence controls the survival, growth and reproduction of the organism. Coding DNA is DNA that is transcribed and translated into amino acids. Non-coding DNA is DNA that is not translated into mRNA, so it does not code for a protein.

Answer 17

Structural DNA, not transcribed Functional RNA, transcribed Introns, transcribed Telomeres, not transcribed Centromeres, not transcribed

Answer 18

Both introns and exons are nucleotide sequence regions in genes Both introns and exons in a gene are transcribed into mRNA Introns are spliced out and removed from the mRNA during modification, the exons remain Exons leave the nucleus and are translated into a polypeptide sequence, introns are not

Answer 19

Introns and exons are terms given to specific regions within a gene. During protein synthesis, both introns and exons are transcribed into mRNA. The mRNA is then modified by splicing, in which the intron regions are cut out of the mRNA. The exon regions join together, and the modified mRNA leaves the nucleus. In the cytoplasm, the mRNA is translated into a polypeptide. Therefore, in protein synthesis both introns and exons are transcribed, but only the exons are translated.

Answer 20

This statement is correct in saying "not all DNA encodes for proteins". DNA that encodes for proteins is coding DNA. DNA that doesn't encode for proteins is known as non-coding DNA. However, it is incorrect to call non-coding DNA "junk DNA". Non-coding DNA has numerous other cellular functions. An example of this is the DNA that codes for functional RNA, which is RNA that has its own role and isn't translated into a polypeptide, like tRNA which is involved in translation during protein synthesis. Another example is structural DNA, like centromeres and telomeres. These are regions of DNA that are not transcribed, but have a role in maintaining chromosomal structure.

Answer 21

genotype refers to the combination of alleles in an organism's DNA which code for a trait.

Answer 22

1. the parent of the offspring would have a germ-line mutation, i.e., a. mutation in a sperm or egg cell 2. this would create a new inheritable allele (variation of a gene) 3. if the sperm of egg cell was fertilised, a zygote containing the mutated gene would be formed, causing the mutation to be present in the genotype of the offspring.

Answer 23

Genes are segments of DNA that code for a particular characteristic. When genes are expressed through protein synthesis, the phenotype of the organism is affected. For example, an individual who has a blue-eyed phenotype is homozygous for the blue-eyed gene, and therefore produces proteins that contribute to having blue eyes. Features of the environment such as temperature and the availability of nutrients can alter the expression of genes and therefore phenotype. For example, temperature affects coat color in Siamese cats. This is because the dark patches on Siamese cats are caused by a gene that codes for a temperature-sensitive enzyme.

Answer 24

Genotype refers to the set of genes an organism inherits from its parents. Phenotype refers to the observable characteristics of an organism (how it develops, looks, reacts and behaves) and is often the result of its genotype and exposure to environmental factors. The genotypes and phenotypes of a species have typically evolved to suit their native habitats. Destruction of these habitats, such as the removal of trees by deforestation, will mean the native species' genotypes and phenotypes will no longer be suited to their surroundings, dramatically reducing their likelihood of survival. If individuals in the population exist with genotypes and phenotypes suitable to the new environment, they will be naturally selected and the species will evolve.

Answer 25

DNA replication and segregation occurs in separate steps Occurs in eukaryotes Far more complex * Have lots of DNA and organelles to coordinate Steps in mitosis are more distinct to ensure correct division

Answer 26

DNA replicates and segregates at the same time, while the cytoplasm divides Occurs in prokaryotes Much simpler Able to split in one go

Answer 27

birds and mammals