Meiosis & Mitosis

You're watching a preview. 300,000+ students are watching the full lesson.
Master
To Master a topic you must score > 80% on the lesson quiz.

Included In This Lesson

NURSING.com students have a 99.25% NCLEX pass rate.

Outline

Overview

  1. Cell Cycle
    1. G1-growth phase
    2. S – synthesis phase (DNA replication)
    3. G2-2nd growth phase (prepares for division)
  2. Mitosis- asexual reproduction of somatic (body) cells for growth & repair
    1. Prophase-chromosomes condense, nucleus disappears, spindles form
    2. Metaphase-chromosomes align at equator
    3. Anaphase-chromosomes pull apart from one another at centromere
    4. Telephase-chromosomes move to opposite ends
    5. Cytokinesis- Cytoplasm splits into 2 cells
  3. Meiosis-sexual reproduction of germ cells for production of egg & sperm
    1. oogenesis- produces 1 egg & 3 polar bodies
    2. spermategenesis-produces 4 sperm

Unlock the Complete Study System

Used by 300,000+ nursing students. 99.25% NCLEX pass rate.

200% NCLEX Pass Guarantee.
No Contract. Cancel Anytime.

Transcript

Today we are going to review the basics of eukaryotic cell division which includes mitosis and meiosis.

So cells splitting can be referred to as cell division or cells replicating which means the same thing. 

Cells follow a life cycle (much like a frog, butterfly or us) and that process is divided up into stages.  Interphase is the longest and where a cell spends most of its time. within interphase a cell first grows (G1) like a newborn baby and just does what it is supposed to do as a cell. Eventually it might do on to double its information (S phase) much like the school years) and finally after that a cell may grow and develop parts to prepare for dividing (say like like marriage, buying a house).

Beyond this the cell could do a variety of things depending on the cell type. A neuron for example will usually go into G0 its resting stage. A body cell will do mitosis when needed for growing and repairing. And finally germ cells will perform meiosis when triggered to produce gametes. 

So let’s take a look at what a cell needs to do in order to make an identical copy of itself. This first stage is prophase and pro means for or before. Here we have stuff that needs to happen before division. Chromosomes need to condense, that nuclear membrane needs to dissolve and spindle fibers are going to go fishing for chromosomes.

Next up is metaphase, where those chromosomes line up at the equator… meta means change and in this case the change is moving to the middle.

Ana means apart and by this we can see those chromosomes have been pulled apart and migrating away from one another.

And here we reach the end… and well that’s convenient because telo means end. And the chromosomes at this stage have reached the opposite ends of the cell and nuclei are going to begin reforming at each end. Beyond this the cytoplasm in the middle needs to split and we have 2 identical cells!!

But a select group of cell called germ cells take a different route. These cells are called germ cells and are destined to become egg or sperm. This process is part of sexual reproduction (however this part never makes the R rated movies. Oogenesis is for making eggs and usually only one a month  is lavished upon and survives and spermatogenesis makes sperm. Of course fertilization is what most people know to be sexual reproduction but really it’s only half the story!

So in summary…. all cell have a life cycle and most cells are in interphase growing, copying DNA. SOme cell may cease to divide and enter G0 like nerve cells. Other body cells do mitosis, asexual reproduction to make exact copies ofr growth and repair. ANd finally our germ cells go through meiosis in order to make egg and sperm that may just meet up during fertilization.

Thank you for allowing me to enlighten your understanding of mitosis and meiosis. Now go out and be your best self today and happy nursing.

Study Faster with Full Video Transcripts

99.25% NCLEX Pass Rate vs 88.8% National Average

200% NCLEX Pass Guarantee.
No Contract. Cancel Anytime.

🎉 Special Offer 🎉

Nursing School Doesn't Have To Be So Hard

Go from discouraged and stressed to motivated and passionate

My Study Plan

Concepts Covered:

  • Basic
  • Tissues and Glands
  • Basics of Human Biology
  • Basics of Chemistry
  • Basics of Mathematics
  • Microbiology
  • Terminology
  • Skeletal System
  • Emergency Care of the Trauma Patient
  • Oncology Disorders
  • Muscular System
  • Emergency Care of the Cardiac Patient
  • Nervous System
  • Sensory System
  • Circulatory System
  • Respiratory System
  • Digestive System
  • Urinary System
  • Reproductive System
  • Emergency Care of the Neurological Patient
  • Hematologic System
  • Hematologic Disorders
  • Cardiac Disorders
  • Endocrine System

Study Plan Lessons

CPR-BLS (Basic Life Support)
Epithelial (Skin) Tissues
Types of Epithelial (Skin) Tissue
Cell Structure
Glands
Chemical Equations
Connective Tissues
Membranes
Non-Membranous Organelles
Cell Membrane Permeability
Graphing Equations
Oxidation & Reduction
Skin Structure & Function
Acids & Bases (acid base balance)
Cellular Energy Conversion
Properties of Matter
Homeostasis
Nuclear Chemistry
Meiosis & Mitosis
Bacteria
Neuro Terminology
Skeletal Anatomy
Bone Structure
Cardiac Terminology
Development of Bones
Host defenses
Penetrating Thoracic Trauma
Respiratory Terminology
Blunt Abdominal Trauma
Digestive Terminology
Joints
Penetrating Abdominal Trauma
Urinary Terminology
Crush Injuries
Reproductive Terminology
Musculoskeletal Terminology
Metabolic & Endocrine Terminology
Hematology Oncology & Immunology Terminology
Integumentary (Skin) Terminology
Multiple Myeloma
Muscle Anatomy (anatomy and physiology)
Sensory Terminology
Skeletal Anatomy
Aneurysm & Dissection
Muscle Anatomy (anatomy and physiology)
Muscle Cytology
Nervous System Anatomy
Skeletal Muscle
Muscle Contraction
Sensory Basics
Intro to Circulatory System
Muscle Physiology
Procedural Terminology
Nuclear Chemistry
Respiratory Structure & Function
Digestive System Anatomy
Urinary System Anatomy (Anatomy and Physiology)
Male Reproductive Anatomy (Anatomy and Physiology)
Female Reproductive Anatomy (Anatomy and Physiology)
Nervous System Anatomy
Skeletal Anatomy
Membrane Potentials
Muscle Anatomy (anatomy and physiology)
Cell Structure
Nerve Transmission
Nervous System Anatomy
Autonomic Nervous System (ANS)
Sensory Basics
Intro to Circulatory System
Non-Membranous Organelles
Spinal Cord
Cell Membrane Permeability
Cranial Nerves
Respiratory Structure & Function
Digestive System Anatomy
Cellular Energy Conversion
Urinary System Anatomy (Anatomy and Physiology)
Female Reproductive Anatomy (Anatomy and Physiology)
Sensory Basics
Intracranial Hemorrhage
Cell Structure
Non-Membranous Organelles
Cell Membrane Permeability
Cellular Energy Conversion
Intro to Circulatory System
The Heart
Cardiac Cycle
Neuro Terminology
Electrical Activity in the Heart
Cardiac (Heart) Physiology
Blood Vessels
Blood Pressure (BP) Control
Musculoskeletal Terminology
Hematology Oncology & Immunology Terminology
Integumentary (Skin) Terminology
Blood Plasma
Blood Grouping
Vessels & Fluid
Respiratory Structure & Function
Breathing Movements
Breathing Control
Respiratory Functions of Blood
Digestive System Anatomy
Mouth & Oropharynx
Esophagus
Stomach Video
Small Intestine
Large Intestine
Liver & Gallbladder
Urinary System Anatomy (Anatomy and Physiology)
Renal (Kidney) Structure & Function
Sympatholytics (Alpha & Beta Blockers)
Renin Angiotensin Aldosterone System (RAAS)
Formation & Excretion of Urine
Renal (Kidney) Fluid & Electrolyte Balance
Renal (Kidney) Acid-Base Balance
Pituitary Gland
Thyroid Gland
Adrenal Gland
Pancreas
Male Reproductive Anatomy (Anatomy and Physiology)
Female Reproductive Anatomy (Anatomy and Physiology)
Blood Flow Through The Heart