Page 1: Cell Communication and Cell Cycle
This detailed page covers the fundamental concepts of cell communication in AP biology and cell cycle regulation. The content is organized into several key areas including signaling mechanisms, cell cycle phases, and division processes.
Cell Communication Section:
The page explains how cells communicate through chemical signals, including both short and long-distance signaling methods.
Definition: Short-distance signaling involves cells sending out local regulators to nearby cells of the same type, while long-distance signaling targets different cell types.
Example: B-cell activation demonstrates cell communication when antigens bind to B-cell receptors.
Cell Cycle and Division:
The page details the stages of both mitosis and meiosis, including interphase and M-phase components.
Vocabulary: Interphase consists of G₁ (cell growth), S (DNA replication), and G₂ (additional cell growth) phases.
Highlight: The cell cycle is controlled by cyclins and cyclin-dependent kinases (CDKs), which regulate progression through various phases.
Signaling Mechanisms:
The document outlines the three stages of cell signaling:
Definition: Paracrine signaling and other communication methods involve:
- Reception: Detection of signal molecules
- Transduction: Signal conversion
- Response: Cellular reaction to signals
Cell Cycle Control:
The page concludes with important regulatory mechanisms:
Highlight: Three major checkpoints exist:
- G1 checkpoint: Evaluates size, nutrition, growth, and damage
- G2 checkpoint: Verifies proper DNA replication
- M checkpoint: Ensures correct spindle fiber attachment
Definition: Cancer is defined as unregulated cell growth, while apoptosis is programmed cell death.
