Tissue and Organ systems

Question 1

What is a tissue?

Answer 1

A group or layer of similar cells which together perform certain special functions

Question 2

For a tissue, does function follow form or form follow function, and why?

Answer 2

Function follows form, since they assemble to perform a specific function

Question 3

How are all tissues and organs similar?

Answer 3

They are composed of almost the same cells (same progenitor/stem cells)

Question 4

How are all tissues and organs different?

Answer 4

Based on their form, which gives rise to different functions

Question 5

What determines phase differences in different tissues?

Answer 5

The adhesion forces present

Question 6

Which stem cells are pluripotent?

Answer 6

Embryonic stem cells

Question 7

What does pluripotent mean?

Answer 7

They can develop into most tissues/organs

Question 8

What are some examples of specialized cells?

Answer 8

Myocytes, osteocytes, RBCs, epithelial cells, etc.

Question 9

How many specialized cells are there?

Answer 9

~200

Question 10

What is an organ?

Answer 10

A somewhat independent body part that performs a special function

Question 11

What do different mechanical/biochemical cues lead to in adult stem cells?

Answer 11

Genetic “re-programming” (different cells)

Question 12

Why are cell interactions important to study>

Answer 12

They describe how structures self-assemble, and cooperative phenomena (emergent properties)

Question 13

What are biofilaments?

Answer 13

Building blocks of cells/tissues

Question 14

What are some examples of biofilaments?

Answer 14

dsDNA, actin, and microtubules

Question 15

What is dsDNA?

Answer 15

Two DNA strands stuck together

Question 16

What are actin filaments?

Answer 16

6 nm thick proteins that assemble from actin monomers

Question 17

What do actin filaments do?

Answer 17

Form much of cytoskeleton, tracks for myosin motors to move and generate forces

Question 18

What are microtubules?

Answer 18

Stiff 24 nm hollow cylindrical tubes from alpha/beta tubulin monomers

Question 19

What do microtubules do?

Answer 19

Structural role in cells, tracks for highways for motor proteins

Question 20

At nm scales, what is the property of biofilaments?

Answer 20

Stiff

Question 21

Which biofilaments are the most stiff?

Answer 21

Microtubules

Question 22

How can dsDNA and actin be bent?

Answer 22

By thermal fluctuations

Question 23

What is the length of actin in vivo?

Answer 23

1-3 um

Question 24

What is the length of microtubules in vivo?

Answer 24

10 um

Question 25

Structurally, what are folded proteins similar to?

Answer 25

A hard plastic

Question 26

Structurally, what is bone similar to?

Answer 26

Steel

Question 27

What is persistence length?

Answer 27

The distance that a biofilament bends by a radian (57 degrees) by random thermal fluctuations

Question 28

What is the persistent length of dsDNA?

Answer 28

50 nm

Question 29

What is the persistent length of actin?

Answer 29

20 um

Question 30

What is the persistent length of tubulin?

Answer 30

1 mm

Question 31

What is the equation for the force constant of a biofilament?

Answer 31

f0 = pir^2E

Question 32

What does the force constant represent?

Answer 32

The force needed to double the length of the rod (if valid for larger extensions)

Question 33

What is the equation for stretching energy of a rod?

Answer 33

The integral from 0 to delta L of f d(delta L)

Question 34

For pure bending, what is R?

Answer 34

Radius of curvature

Question 35

For pure bending, what is r?

Answer 35

Radius of filament

Question 36

For pure bending, what is the length of the outer edge?

Answer 36

L(1+r/R) (tension)

Question 37

For pure bending, what is the length of the inner edge?

Answer 37

L(1-r/R) (compression)

Question 38

For pure bending, what is the length of the midline?

Answer 38

L (unchanged)

Question 39

What is the equation for local stretch energy?

Answer 39

Estretch / Volume = f0 (delta L)^2 / (2LV)

Question 40

What is the equation for bending energy of a rod?

Answer 40

Integrate strain energy (Estretch) along cross section of rod

Question 41

What is B?

Answer 41

The bending constant of a rod with circular cross-section

Question 42

What is the formula for B?

Answer 42

B = (pi/4)*(Er^4)

Question 43

What is the equation for bending energy in terms of B?

Answer 43

Ebend/L = B/(2r^2)

Question 44

What are the units of B?

Answer 44

Energy * length (Jm) or forcearea (N*m^2)

Question 45

What is morphogenesis?

Answer 45

The process by which the form of an embryo is formed

Question 46

What is organogenesis?

Answer 46

The organ rudiments segregate and develop into organs

Question 47

What are organ rudiments called?

Answer 47

Anlagens

Question 48

What is differentiation?

Answer 48

The gradual change in cells to acquire a distinctive structure/function

Question 49

What happens when cells differentiate further?

Answer 49

Their ability to differentiate into different things becomes restricted

Question 50

What hierarchy is present during embryogenesis?

Answer 50

Cells –> Tissues –> Organs –> Organ systems

Question 51

What is fertilization?

Answer 51

Union of egg/sperm to form a zygote

Question 52

What happens during days 2-4 of embryogenesis?

Answer 52

Cleavage

Question 53

What happens during cleavage in embryogeneiss?

Answer 53

Cell multiplication, size remains the same

Question 54

What is the consequence of cleavage in embryogenesis?

Answer 54

V decreases, SA/V increases, influences diffusion and transport

Question 55

What happens during day 6 of embryogenesis?

Answer 55

Blastocyst forms

Question 56

What is a blastocyst?

Answer 56

A hollow ball / sphere of cells

Question 57

What is the importance of the blastula?

Answer 57

Source of embryonic stem cells

Question 58

What is gastrulation?

Answer 58

The motion of cells from blastula (cavity) to different germ layers

Question 59

What germ layers arise during gastrulation?

Answer 59

Ectoderm (outside), mesoderm (middle), and endoderm (inside)

Question 60

What does the inner cell mass form?

Answer 60

The embryo

Question 61

What does the outer cell mass form?

Answer 61

The tropoblast forms the placents

Question 62

When does gastrulation take place?

Answer 62

Around day 10

Question 63

What happens at day 14 of embryogenesis?

Answer 63

Formation of 4 major cell functions

Question 64

What does the mesoderm differentiate into?

Answer 64

Connective / muscle tissue

Question 65

What does ectoderm and endoderm differentiate into?

Answer 65

Neural and epithelial tissue

Question 66

What is neuralation?

Answer 66

Establish anlagens, develop along axis o establish body plan (axis of symmetry)

Question 67

What is formed during neuralation?

Answer 67

The neural plate and the neural tube (along craniocaudal axis)

Question 68

How does morphogenesis arise?

Answer 68

Cell motility (contractile elements of cytoskeleton)

Question 69

How do cells move?

Answer 69

1. Protrusion of filopodia (actin polymerization)
2. Formation of focal contacts (anchor)
3. Retraction of trailing edge (contraction and passive recoil due to elasticity)

Question 70

What is the structure of cuboidal epithelium?

Answer 70

Joined at apices by circumferential junctions (bundle of filaments)

Question 71

What change in geometry can epithelial cells undergo during morphogenesis?

Answer 71

“Purse string contraction”

Question 72

How is an apical bundle modeled?

Answer 72

Viscoelastic: spring and dashpot

Question 73

How does the apical filament trigger?

Answer 73

When the circumference reaches a certain threshold, it fires, resulting in a new, shorter resting length

Question 74

How does change in one cell propagate?

Answer 74

It changes the neighboring shapes, causing their own contractions