BSCI 105 Lecture 29: Eukaryotic Gene Expression

The enzymes control the rate of translation of an mRNA transcript

The enzymes add phosphate or methyl groups to histone tails

The enzymes slide nucleosomes farther apart or closer to each other

The enzymes send damaged proteins to the proteasome for degradation

The enzymes cause DNA looping to occur

QUESTION 10

If you can drink milk as an adult, it means that you have inherited a mutation in the an enhancer for your lactase gene (the gene that encodes the enzyme you need to break down lactose). Predict the effect of this mutation:

The mutation changes the number of domains in the enzyme, which makes it work more efficiently

The mutation changes the amino acid sequence of the lactase protein

The mutation increases the number of copies of the lactase gene that will be found in your genome

The mutation changes whether the lactase sequence is found in an intron or exon

The mutation affects the expression of the lactase gene

The substrate will increase the reaction rate by binding to the allosteric site

The substrate will increase the reaction rate by competing with the inhibitor for the active site

The reaction rate will not change unless the inhibitor can be removed

The enzyme adjusts its shape so that the substrate, but NOT the competitive inhibitor, can bind

The substrate will bind to the competitive inhibitor and block its ability to bind to the enzyme

Transcription regulators bind to the 5' UTR region of a gene

Regulators bind via complementary base-pairing to certain DNA molecules

Covalent bonds form between the transcription regulator and the atoms of the DNA backbone

Every eukaryotic gene has a different transcription regulator that will bind to the 5' end of the gene

Transcription regulators bind to specific DNA sequences via multiple weak non-covalent interactions

DNA -> RNA -> protein

All cells arise from pre-existing cells

DNA provides the complete instructions to create a cell

The identity of a cell is determined through gene expression patterns

All cells contain the same four basic macromolecules

Using both an activator and repressor enables cells to more accurately determine the amount of lactose available in the environment

Enzymes to digest lactose are only made when energy is low and lactose is available

The activator can override the inhibition of the lac operon by the repressor

The repressor can control the enhancer, while the activator can control the promoter

When neither the lac activator or repressor is present, expression of the lac operon is too high

Phosphorylation and acetylation of DNA affect its ability to be compacted

Changes to the sequence of DNA change whether DNA will wrap around histone proteins

Covalent modifications of histones affect the ability of the transcription initiation complex to form

Histones provide the codon sequences needed for translation to occur

The histone code affects which amino acids will get added to a polypeptide

The donor blood contains antibodies that destroy cancer cells

Donor blood contains stem cells that regenerate cells in the immune system

Bone marrow contains induced pluripotent stem cells that turn into red blood cells

Bone marrow contains tumor supressor genes that slow down leukemia growth

Bone marrow contains pluripotent human embryonic stem cells

Increased genomic instability would result from adding foreign nucleic acids

New mutations would arise in the oncogene

The oncogene would be converted back into a proto-oncogene

The siRNAs would compete with the oncogene's active site

Production of the oncogene protein would decrease

The enzymes control the rate of translation of an mRNA transcript

The enzymes add phosphate or methyl groups to histone tails

The enzymes slide nucleosomes farther apart or closer to each other

The enzymes send damaged proteins to the proteasome for degradation

The enzymes cause DNA looping to occur

Use somatic cell nuclear transfer to insert the mammoth genome into the egg of an elephant

Use transcription factors to re-program adult cells from elephants into mammoth cells

Change the gene expression patterns of elephants to increase production of mammoth genes

Use siRNAs to decrease expression of elephant-specific genes in an elephant embryo

RNA polymerase is recruited to the start codon by transcription factors

RNA polymerase begins transcription at the enhancer sequence

RNA polymerase is activated by binding to GTP

An initiator tRNA binds to the ribosome

A complex of proteins forms at the promoter of a gene