Unit 2 Multicellularity, Development, and Reproduction PDF

Summary

This document discusses multicellularity, development, and reproduction, focusing on fundamental principles and processes related to cell specialization. It explains the key concepts in the context of cell size, reproduction types, and developmental processes.

Full Transcript

UNIT 2
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Learning Outcomes
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In this unit, the student should be able to:

1. list the five essential developmental processes in the development
of the multicellular organism,

2. describe the major reproductive strategies of eukaryotes,

3. explain the trade-offs between asexual and sexual reproduction, and

4. compare and contrast the three types of life cycle of a eukaryotes,

**Time Frame:** 4 hours Lec; 6 hours Lab/2 weeks

Content
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Cell Size
---------

- Some cells also use geometric tricks to get around the
surface-area-to-volume problem. For instance, some cells are long
and thin or have many protrusions from their surface, features that
increase surface area relative to volume.

- Other solutions are to divide into two cells or the development of
organelles that perform specific tasks. These adaptations lead to
the development of larger and more complex cells called eukaryotic
cells.

- A more sophisticated solution is multicellularity, where an organism
is made of multiple cells with specialized functions. The rest of
this reading provides an overview of the requirements and
consequences of multicellularity.

Multicellularity and Specialization
-----------------------------------

Processes that Control Development and Specialization
-----------------------------------------------------

1. **Cell proliferation:** reproduction of new cells via mitosis; this
process is critical for adding new cells (and thus mass) to body,
making it larger

2. **Programmed cell death:** death of specific cells; this process may
seem like a bad thing, but certain cells actually have to die at
certain stages for normal development. An example is human digits;
during development, we have cells between our fingers which must die
at precise times during development; otherwise, there would be
webbing between our fingers.

3. **Cell movement** or **differential expansion:** movement to new
locations in the body (in animals) or differential expansion of
cells in a specific direction (in plants); the process of
gastrulation, which forms the gut, is the most dramatic example of
cell movement in animals. Another interesting example is the
movement of the testicular tissue from the abdomen to the scrotum in
male development (testicles arise from the same tissue that creates
ovaries in females). Plant cells cannot move due to their cell wall,
and instead differentially expand to cause the plant to bend.

4. **Induction:** cell-cell communication or signaling; this process is
critical for cells recognizing where they are in the body during
development, and thus what type of cell they should become.
Cell-cell communication can occur directly between immediately
adjacent cells, or over long distances in concentration gradients.
Any signaling molecule that helps specify cell fate that is present
in a concentration gradient is called a **morphogen**; the amount of
morphogen a cell detects helps determine what that cell will become.

5. **Cell differentiation:** the process of becoming a specific cell
type, such as a bone cell or a muscle cell; this is often the final
result of all the other processes, where a cell goes from an
unspecified (embryonic) type to a final, specialized type of cell
with a specific job in the organism.

Eukaryotic Reproduction
-----------------------

- **Mitosis:** splitting into two (usually equal) halves (like binary
fission, but with a nucleus; binary fission occurs in prokaryotes,
while mitosis occurs in eukaryotes). All eukaryotes use mitosis,
either to produce a new organism, or to produce new cells within a
multicellular organism.

- **Multiple fission**: splitting into more than 2 cells. Some fungi
and some microbial eukaryotes reproduce through multiple fission.

- **Budding**: outgrowth of a new cell from an old cell/new organism
from old organism. Budding can occur when a single cell buds from a
parent cell, or when multiple cells bud off of a larger organism.
Budding occurs in some animal life stages (such as hydra in sea
anemones, and the parasitic stage of flatworms) some fungi, and some
microbial eukaryotes.

- **Fragmentation**: mature organism splits into fragments capable of
forming new organisms. Reproduction by fragmentation occurs in some
fungi, some animals (such as starfish) and some plants.

- **Spores**: specialized cells capable of forming a new organism;
usually haploid and produced by meiosis. Reproduction by spores
occurs in land plants and fungi.

- **Parthenogenesis**: development of unfertilized egg into new
organism. Parthenogenesis occurs in some animals (including some
arthropods and some lizard species) and in some plants.

- **Polyembryony**: fertilized egg splits to form genetically
identical clones. Polyembryony can occur in some animals and some
plants.

- **Vegetative growth**: growth of new organism from meristematic
cells without spores or gametes. Vegetative growth is a common
reproductive strategy in plants.

Pros and Cons of Sexual and Asexual Reproduction
------------------------------------------------

Eukaryotic Life Cycle
---------------------

- **Gametogenesis**: making gametes

- **Mating**: getting gametes together

- **Fertilization**: fusing gametes into one cell

- **Gamete**: a mature haploid male or female germ cell that is able
to unite with another of the opposite sex in sexual reproduction to
form a zygote

- **Spore**: a small, typically one-celled, reproductive unit capable
of giving rise to a new individual without sexual fusion

Suggested Activity
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"Reproduction Buddies"
----------------------

1. Go to the
[[https://www.nationalgeographic.org/interactive/reproduction-buddies/]](https://www.nationalgeographic.org/interactive/reproduction-buddies/)
and play the reproduction buddies. There are nine stages of the
game. Complete all the stages. Get a screenshot of each stage,
print, and paste it in the box below.

Stage 1 Stage 2
---------------

1. What are the two types of reproduction and describe its key
differences?

2. Describe how the following organism reproduce based on the game you
played:

a. *Amoeba*

b. Starfish

c. Sponge

d. Carrots

e. Bees

3. What is the difference between fragmentation and budding?

4. How are the genes split up in sexual reproduction