Unit 1:

Question 1

The Question of Differentiation

Answer 1

Since every cell in the body contains relatively the same genes, how can so many different cell types be generated

Question 2

The Question of Morphogenesis

Answer 2

How can the cells in our body arise to functional structures?

Question 3

Pattern Formation

Answer 3

Spatial organization of cells

Question 4

Microsurgery

Answer 4

Putting cells in new situations, or even transplanting pieces of one cell to itself or others.

Question 5

The Organizer

Answer 5

Spemann/Mangold

Question 6

Which piece of the blastopore induces formation?

Answer 6

The Dorsal lip

Question 7

Vogt

Answer 7

Created the concept of fate mapping

Question 8

Germ layers (3)

Answer 8

Ectoderm, Mesoderm, Endoderm

Question 9

Gametes

Answer 9

Sperm and egg

Question 10

Blastomeres

Answer 10

small cells that make up a blastula

Question 11

Gastrulation

Answer 11

When the blastula undergoes rapid cell rearrangement, formation of the three germ layers

Question 12

Germ cells

Answer 12

cells set aside for reproductive information

Question 13

Somatic cells

Answer 13

Non-germ cells

Question 14

Life cycles are usually controlled by:

Answer 14

Environmental factors, such as seasons [temp]

Question 15

Blastocoel

Answer 15

Fluid filled space in the animal hemisphere of the blastula to allow for extensive cell movement during gastrulation

Question 16

Blastopore

Answer 16

Dimple on the embryo surface which marks the dorsal side. Cells entering will become the mesoderm

Question 17

Notochord

Answer 17

rod of mesodermal cells most dorsal position to become nervous system

Question 18

Neurula

Answer 18

Embryonic stage where notochord has formed

Question 19

Somites

Answer 19

precursors to back muscles,spine, and dermis

Question 20

Comparative Embryology

Answer 20

How anatomy changes during development of different organisms

Question 21

Evolutionary Embryology

Answer 21

How changes in development cause evolutionary change, and how ancestry affects the current organism

Question 22

Teratology

Answer 22

Study of birth defects

Question 23

Oviparity

Answer 23

birth from egg [amphibian]

Question 24

Viviparity

Answer 24

live birth[mammal]

Question 25

Ovoviviparity

Answer 25

birth from inside an egg[chick]

Question 26

Ectoderm [2 tissues]

Answer 26

Skin, and brain/nervous system

Question 27

Endoderm[2 tissues]

Answer 27

Digestive tract, and organs coating

Question 28

Mesoderm[7 tissues]

Answer 28

Blood,heart,kidney,gonads,bones,muscles,connective tissues

Question 29

Describe the Organizer experiment

Answer 29

One dorsal blastopore was transplanted to a new embryo which then contained two dorsal blastopore. Both areas started developing gastrulation and neurulas, notochords, and neural tubes, and eventually two organisms attached together.

Question 30

Induction: Definition

Answer 30

The process by which one cell or tissue induces a specific reproducible differentiation in another tissue or cell.

Question 31

Describe “Sufficiency” and how it does not have to be necessary.

Answer 31

Sufficiency means that an added element is enough to create the entire change, however, the element itself is not necessary to finish that change. The change could occur naturally without the added element. Example: Bill Gates vs. the Lottery. In order to be rich, you do not have to be Bill Gates, but being him would be sufficient.

Question 32

Describe how “sufficiency” relates to functional redundancy. What does this mean for a cell?

Answer 32

Having components that are sufficient, but not necessary for a process allows for completion even when an element may fail, another is sufficient.

Question 33

Describe “Necessity” and how it does not necessarily mean the element is sufficient.

Answer 33

An element may be needed to complete a task, but it doesn’t mean that the element alone can complete the task. For example: Air and water. Air is necessary for survival, but air alone can also not guarantee survival. Water is also needed.

Question 34

Does the Organizer experiment show that cells are Sufficient, or Necessary?

Answer 34

Sufficient. The cells alone put in a different situation created the same result without help.

Question 35

Specification: Definition

Answer 35

The extent to which a cell is predestined to become a specific type for differentiation, or not.

Question 36

Autonomous Specification

Answer 36

A cell is predestined a long time ago, and has reproducible divisions. Associated with localized determinants

Question 37

Autonomous Differentiation Example

Answer 37

Poking off specific cells in Ascidians created mollusks of that cell type

Question 38

Conditional Specification

Answer 38

Late decisions, variable divisions, regulative development, interactions with neighboring cells determine differentiation

Question 39

The Organizer: Autonomous or Conditional Specification

Answer 39

Autonomous, because removed from a place, and still did the same thing.

Question 40

Genomic Equivalence: Definition

Answer 40

Each somatic cell has the same chromosomes

Question 41

Differential Gene Expression

Answer 41

Each cell has the capability to express the entire genome, but only a few are actually expressed.

Question 42

Places of gene regulation

Answer 42

Nuclear RNA, messenger RNA, protein translation, choice of functional proteins within cell

Question 43

Histone Methylation

Answer 43

Addition of negative charge to histones causes unraveling of DNA and allowing transcription

Question 44

DNA Methylation

Answer 44

Stops transcription factors from binding

Question 45

Chromosome puffs

Answer 45

in drosophila, all cells contained the same chromosomes, but only the puffed region [different in each cell] was being transcribed

Question 46

Dolly the Sheep

Answer 46

Oocytes were denucleated, and nucleus of other sheep added. Implantation into surrogate mother, and successful birth

Question 47

Histones

Answer 47

DNA wrapped stones within the chromosome chromatin complex

Question 48

Describe the process of nuclear transfer

Answer 48

An egg’s nucleus can be removed, and a different nucleus inserted into the egg with different DNA.

Question 49

As the age of the nucleus increases, successful development …

Answer 49

decreases

Question 50

Why is Cloning so Rarely Successful?

Answer 50

LOS, Placental Defects,histones, epigenetic

Question 51

Therapeutic Cloning

Answer 51

Using cells to create stem cells to differentiate

Question 52

Reproductive Cloning

Answer 52

Cloning for human creation.

Question 53

Chimeric Mixture

Answer 53

Splitting an embryo at its 8 cell stage or earlier and using multiple genomes

Question 54

Totipotency

Answer 54

When a cell can differentiate into any other cell type

Question 55

Pluripotency

Answer 55

When a cell can differentiate into almost any other cell type

Question 56

Stem cells are harvested from the ___ stage of the embryo

Answer 56

Blastocyst

Question 57

When can stem cells not from a fetus be found?

Answer 57

Bone marrow, and the umbilical cord

Question 58

What is compaction, and why is it an important embryo stage?

Answer 58

Compaction is when the 8 cell embryo compacts together. After this, it is not possible for the cells to have totipotency.

Question 59

Watershed: Implantation Pro

Answer 59

Many embryos fail to implant. Since several will never become born, the embryo at this stage cannot be considered a human.

Question 60

Watershed: Implantation Con

Answer 60

Under the right conditions, any embryo COULD implant, therefore the embryo at this stage is a human. Also, ex utero development is becoming increasingly possible.

Question 61

Watershed: Twinning Pro

Answer 61

A blastula can split and become twins later. This split is the start of human individuation, not beforehand, therefore the human blastula is not an individualized human.

Question 62

Watershed: Twinning Con I

Answer 62

The process of twinning is not that there was once nothing, then suddenly two. There was ONE and now TWO, therefore, there was a complete individuated life in the blastula.

Question 63

Watershed: Twinning Con II

Answer 63

Cnidarians form asexual polyps on themselves. Was the initial cnidarian not a cnidarian?

Question 64

Watershed: Neurulation Pro

Answer 64

The defining element of the human species is our advanced nervous system. Therefore the embryo is not a human until the neural system begins to form.

Question 65

Watershed: Neurulation Con

Answer 65

Under the right conditions, embryos WILL form the CNS. “human with potential” vs. “potential human”

Question 66

Functionalist View

Answer 66

The functions of something define what it is.

Question 67

Anti functionalist View

Answer 67

If you are only a human based on what you can function doing, then how do we consider those who are impaired, or infants, or the elderly?

Question 68

Development is Continuous

Answer 68

The embryo will not articulate itself into any other species. Therefore it is a human. The human blastula is just what we all looked like at that stage of development.

Question 69

Ontology

Answer 69

finding the essence of what something is

Question 70

Ethics

Answer 70

What is the nature of good, and what is our responsibility towards it?

Question 71

Deontological

Answer 71

Duty based, if the embryo is my neighbor, I have certain responsibilities toward it no matter how inherently useful it is

Question 72

Consequentialist View:

Answer 72

maximize the good for all, even if a few must suffer

Question 73

Intuitionism

Answer 73

Feels like

Question 74

Commodification

Answer 74

Making something, such as the human life, into a commodity

Question 75

Does ontology and ethics always overlap?

Answer 75

No, an example, is abortion. if you think that the fetus is a human life, however, the right of the woman supersedes the life of the unborn child.

Question 76

Pragmatic Compromise

Answer 76

When the ethical obligations change due to extenuating circumstances, examples include ice babies. [ frozen embryos ]

Question 77

How did Induced Pluripotency first come about?

Answer 77

Yamanaka factors [retroviral transfection] to create Pluripotency

Question 78

Teratoma

Answer 78

Ovarian tumors that spontaneously differentiate cells within them , example hair.

Question 79

How to test the abilities of a iPS

Answer 79

Place in Tetraploid cell that has not inner mass cells. If the embryo succeeds, then the iPS cells were indeed pluripotent.

Question 80

Transdifferentiation

Answer 80

Direct reprogramming of cells instead of going through a pluripotent stem cell step

Question 81

cDNA

Answer 81

complimentary DNA

Question 82

How to find and mark specific parts of DNA

Answer 82

We can uses sequences complimentary to the ones we want as probes with dioxigenin as a place for something to bind to

Question 83

How to find and mark specific proteins

Answer 83

Use a primary and secondary antibody

Question 84

Indirect Immunostaining

Answer 84

Synthesize a piece of DNA with a GFP part on it that creates a fluorescent tail to the protein.