Answer

Different cells produce different proteins, including cell-surface receptors and signaling pathway components. Therefore, they respond to different ligands, and the second messengers activate different pathways. Signal integration can also change the end result of signaling.

Correct answer:

Cell A: Prophase

Cell B: Prophase

Cell C: Telophase

Correct answer:

The number of chromosomes in subsequent generations would increase exponentially

Meiosis is the process by which haploid gametes are produced. The attachment of a haploid sperm to a haploid egg begins the process of development and fertilization. In humans a sperm containing 23 chromosomes joins with an egg containing 23 chromosomes to create an organism with 46 chromosomes.

If meiosis were to produce diploid gametes, then the diploid gametes would combine to form an organism that contains twice as many chromosomes as the parent. For example, a diploid sperm and egg (containing 46 chromosomes each) would create an organism with 92 chromosomes. This new organism would produce another organism with 184 chromosomes (double 92). The subsequent generations would have twice as many chromosomes as the previous generation, and the amount of chromosomes would increase exponentially.

Offspring 1: 92 chromosomes

Offspring 2: 184 chromosomes

Offspring 3: 368 chromosomes

chromosomes=46∗2n

(n=generation)

The best answer is that the number of chromosomes in subsequent generations would increase exponentially.

• a) The G1/S checkpoint is critical for assessing cell size, nutrient availability, and DNA integrity before committing to DNA replication. CDK4/6 bound to Cyclin D helps the cell proceed past this checkpoint by phosphorylating the Rb protein. If conditions are favorable, Rb phosphorylation allows E2F to activate genes needed for S phase entry.

• b) DNA damage can inhibit CDK-cyclin activity by activating tumor suppressor proteins like p53. When activated by DNA damage, p53 promotes the transcription of p21, a CDK inhibitor. p21 binds to and inhibits CDK-cyclin complexes (e.g., Cyclin E-CDK2), preventing the cell from advancing to the S phase. This pause allows for DNA repair and prevents the accumulation of mutations, acting as a protective mechanism against uncontrolled cell growth.

Correct answer:

To ensure that DNA hasn't been damaged during S phase

Explanation:

The G2 phase occurs after S phase, but before M phase (mitosis). The purpose of the G2/M check point is to ensure there is no DNA damage that occurred during S phase (DNA synthesis). If damage is found, the cell will try to repair and DNA breaks. If the DNA cannot be repaired, the cell will undergo apoptosis. Many cancer suppressor genes, such as p53, are involved in this process of checking the DNA quality.

The main difference between receptor tyrosine kinases (RTKs) and G-protein-coupled receptors (GPCRs) is their signal transduction mechanism. RTKs are single-pass transmembrane receptors with intrinsic kinase activity. Upon ligand binding, RTKs usually undergo dimerization, leading to autophosphorylation of specific tyrosine residues in their cytoplasmic domain, ultimately activating various downstream signaling pathways. On the other hand, GPCRs are seven-pass transmembrane receptors that interact with G-proteins when activated by a ligand. This interaction causes the G-protein to release GDP and bind GTP, resulting in the dissociation of the G-protein into α and βγ subunits. These subunits then modulate target enzymes or ion channels to generate intracellular signaling events.

46 . . . 46 . . . 92

Humans are diploid organisms with a total of 46 chromosomes (2n = 46). They have 23 distinct chromosomes and each chromosome has a homologous chromosome, giving a total of 46 chromosomes. Upon completion of DNA replication in S phase, each chromosome gains an identical sister chromatid that is joined to the original chromosome at the centromere; however, this whole entity is still considered a single chromosome. When a cell enters prophase of mitosis, there are a total of 46 chromosomes, each with a sister chromatid. In metaphase, the cell still has 46 chromosomes and these chromosomes align along the midline of the cell. In anaphase, the sister chromatids get pulled apart to opposite ends; therefore, the sister chromatid separates from the chromosome and becomes its own chromosome. This means that in anaphase there are a total of 92 chromosomes in the cell.

These 92 chromosomes get pulled to opposite ends where 2 new daughter cells (with 46 chromosomes and no sister chromatids) are produced.

Correct answer:

kinetochore

Centrosomes are portions of the cell that help nucleate microtubules and form the mitotic spindle. Centrioles are composed of tubulin and are portions of the centrosome. The centromere is the portion of the chromosome where the two sister chromatids are linked. The kinetochore is a protein structure that helps associate the mitotic spindle to the sister chromatids. The outer portion of the kinetochore interacts with the microtubules, while the inner portion associates with the centromeric DNA.

• Cyclin D-CDK4/6: Early G1, regulates the G1/S checkpoint.
• Cyclin E-CDK2: Late G1, prepares for S phase.
• Cyclin A-CDK2: During S phase, ensures DNA replication.
• Cyclin A-CDK1: G2 phase, prepares for M phase.
• Cyclin B-CDK1: During M phase, initiates mitosis.

Correct answer:

Cyclin-dependent kinase inhibitor

Explanation:

Progression through the cell cycle involves several molecules. There are several checkpoints along the cell cycle to ensure that the cell is ready for the next phase. One of the most important molecules involved in this process are the cyclin-dependent kinases (CDKs). These molecules phosphorylate and activate molecules that are important for the cell cycle. Inhibiting CDKs by an inhibitor will halt the activity of these molecules and, subsequently, the progression of the cell cycle.

DNA polymerase is an enzyme involved in DNA replication. It promotes DNA replication and helps the cell progress through the cell cycle. p53 is a tumor suppressor gene that is important for halting uncontrolled growth of cells. This is one of the most common mutated genes found in tumors. Lack of p53 activity leads to decreased regulation of cell growth. This means that cells can proliferate uncontrollably and can eventually become tumors.

1.) ligand binds to the GPCR receptor 2.) GPCR goes under a conformational change 3.) GDP attached to one of the subunits of the heterotrimeric protein ( the alpha one) gets replaced by GTP 4.) The alpha protein that is attached to GTP, dissociates from the other two subunits (beta and gamma) of the heterotrimeric protein, and starts to regulate a target protein. 5.) target protein then causes a reaction via second messenger using either ( IP3, DAG, Ca2+ or CaMP) 6.) GTP then gets hydrolyzed back into GDP 7.) Alpha subunit with the attached GDP reassociates with the other two subunits

Correct answer:

Mitosis

Correct answer:

Euchromatin—telophase

DNA is stored in loosely wound euchromatin before mitosis. During mitosis, the DNA condenses into chromosomes, which are made of heterochromatin. It becomes more dense during prophase, and stays that way until the end of mitosis. Euchromatin is more lightly packed than heterochromatin.

Mitosis follows the following sequence: prophase, metaphase, anaphase, telophase, cytokinesis. Interphase refers to the time period between mitotic divisions. During interphase, most DNA is euchromatin, but some regions remain as heterochromatin to prevent unwanted transcription; thus DNA exists as both types of chromatin during interphase, but only as heterochromatin during mitosis. Matching euchromatin to telophase is the answer, as this is a false statement.

Desensitization Mechanism:

• Prolonged ligand binding leads to receptor phosphorylation by G-protein coupled receptor kinases (GRKs), which facilitates β-arrestin binding.
• β-arrestin binding prevents further G-protein activation and promotes receptor internalization via clathrin-mediated endocytosis.
• Dysregulation of this process (e.g., in heart failure) can lead to impaired receptor downregulation, contributing to exaggerated responses and worsening disease symptoms.

Correct answer:

50

Explanation:

DNA replication occurs during the S phase. Upon completion of DNA replication, a cell has a duplicate copy of every chromosome it possesses. Recall that humans have 2 sets of 23 chromosomes (total of 46 chromosomes). For example, there are two different copies of chromosome 1, two different copies of chromosome 2, etc. The two different copies of chromosomes are termed homologous chromosomes. Upon completion of DNA replication, each of these 46 chromosomes will have an identical duplicate copy, called the sister chromatid. The sister chromatid is attached to the original chromosome at the centromere. This entire entity, however, is still considered a single chromosome; therefore, upon completion of S phase humans will have 46 chromosomes.

The organism in the question has 50 chromosomes to begin S phase (2n = 50); therefore, it will have 50 chromosomes at the end of S phase.