Head & Neck Development- Cox

Question 1

Morphogenesis of the head and neck is a ____ process, not a ____ process

Answer 1

generative; descriptive

Question 2

___ encode RNA and Proteins

Answer 2

Genes (DNA)

Question 3

The complement of RNA & Protein produced defines the ____; meaning its appearance and how it behaves

Answer 3

identity of each cell

Question 4

provides the blueprint that ensures we have a maxilla and mandible and an integrated oronasal cavity:

Answer 4

genes (genome)

Question 5

gene mutations and diffrences in non-genetic instructions determines everything about our:

Answer 5

phenotype

Question 6

Cells that are tightly compact and tightly bound together, often found in sheets within the body and have a very distinct sort of shape; not very mobile

Answer 6

epithelia

Question 7

Cells that are loosely connected, surrounded by many types of ECM so they can move around in the body because they are not attached to anything; they can receive and move towards signals

Answer 7

mesenchyme

Question 8

Outer cell layer:

Answer 8

ectoderm

Question 9

Middle cell layer:

Answer 9

mesoderm

Question 10

Inner cell layer:

Answer 10

endoderm

Question 11

The terms ecto, endo and mesoderm are related to:

Answer 11

the embryonic origin of cells

Question 12

All aspects of the craniofacial complex are defined by axes including:

Answer 12

Left-right
Dorsal-ventral
Anterior-posterior

Question 13

Clinical treatments always consider:

Answer 13

form & symmetry

Question 14

Clinical treatments always consider form and symmetry because they are:

Answer 14

critical for function and esthetics

Question 15

Tooth shape, spacing, number, and cusp pattern are all examples of:

Answer 15

form

Question 16

Name the lineage of cells prior to implantation:

Answer 16

1. zygote
2. 2-cell stage
3. 4-cell stage
4. 8-cell stage
5. morula
6. blastocyst
7. late-hatched blastocyst

Question 17

Cells that make up the outer coating during the blastocyst stage:

Answer 17

zona pellucida

Question 18

Where the cells within the zona pellucida undergo some sort of specialization to get the formation into an ectodermal layer

Answer 18

compaction

Question 19

By week 3 of development (carneigie stage 7-9) the mass of cells now has:

Answer 19

ectoderm, mesoderm, & endoderm

Question 20

The dorsal-ventral (DV) axis is apparent by the ____ stage

Answer 20

blastocyst

Question 21

During the first 3 weeks of development, the cells in the inner cell mass give rise to the ____ itself and may be referred to as ___.

Answer 21

embryo; embryonic stem cells

Question 22

The AP and LR axis are determined at the start of week ___, with the appearance of the ____.

Answer 22

3; primitive streak

Question 23

By week 3 of development, the ectoderm contains the ___, while the endoderm contains the ___.

Answer 23

epiblast (forms embryo); hypoblast

Question 24

By week 3 of development, ____ cells converge at the midline and ingress (which marks the ___ end)

Answer 24

ectodermal epiblastic cells; posterior end of embryo

Question 25

The appearance of a primitive streak defines the ____ axis which ultimately defines the ___ axis.

Answer 25

A-P; L-R

Question 26

The ____ is a furrow that progressively elongates along the midline:

Answer 26

primitive streak

Question 27

The primitive streak progressively elongates along the midline through a process of:

Answer 27

convergent extension

Question 28

Early appearance of a primitive streak starts ___ and moves ___ along the midline through convergent extension

Answer 28

posteriorly; anteriorly

Question 29

During the formation of the 2nd and 3rd germ layer, cells of the ____ migrate through the primitive streak to form ___ & ___

Answer 29

epiblast (layer 1); mesoderm & embryonic (gut) endoderm

Question 30

During formation of the 2nd an 3rd germ layers, cells of the epiblast (layer 1) _____ to form mesoderm & embryonic (gut) endoderm

Answer 30

migrate through primitive streak

Question 31

Formation of 2nd and 3rd germ layers occurs through a process called:

Answer 31

gastrulation

Question 32

Gastrulation occurs through a process of _____ to form ____.

Answer 32

epithelial to mesenchyme transformation (EMT) ; mesoderm

Question 33

Gastrulation (formation of 2nd and 3rd germ layers) involves the movement of epiblast (ectoderm) to form _____- both epthelia

Answer 33

embryonic endoderm

Question 34

Describe the growth of the germ layers:

Answer 34

disproprortionate

Question 35

There is greater proliferation of ____ because it also generates all ___ and ____

Answer 35

epiblast (ectoderm); mesoderm & embryonic endoderm

Question 36

During proliferation of germ layers, the generated (proliferating) mesoderm migrates toward ___ end

Answer 36

anterior (head)

Question 37

The key head-forming events is when ___ is being driven forward

Answer 37

mesoderm

Question 38

An asymmetric bulge at the end of the primitive streak:

Answer 38

the node

Question 39

Located at the anterior-most end (ventral side) of primitive streak that is unique in both appearance and function:

Answer 39

the node

Question 40

The ___ (or organizer) is a conserved structure across all vertebrates

Answer 40

Node

Question 41

The Node is essential for:

Answer 41

1. patterning and induction of embryonic cells (mesoderm and embryonic endoderm)
2. establishment of the left-right symmetry

Question 42

Essential for patterning and induction of embryonic cells (mesoderm and embryonic endoderm) as well as the establishment of left-right symmetry and all the internal organs of the body:

Answer 42

The node

Question 43

Factors secreted by cells of the node induce anteriorly migrating mesoderm to form:

Answer 43

the prechordal plate & then the notochord

Question 44

Factors secreted by cells of the node induce ___ to form the prechordal plate & notochord

Answer 44

anteriorly migrating mesoderm

Question 45

• forms from the most anterior region of mesoderm
• provides the signals for induction of head structures

Answer 45

prechordal plate

Question 46

• transient epithelial-like rod structures along the midline
• provides the signals for induction of the neural plate

Answer 46

notochord

Question 47

The prechordal plate forms from the most anterior region of ___.

Answer 47

mesoderm

Question 48

The prechordal plate provides signals for ___ of ___.

Answer 48

induction of head structures

Question 49

The notochord is a ___ epithelial-like rod structure along the midline

Answer 49

transient

Question 50

The notochord provides signals for ___ of ___ from the overlying ectoderm (ultimately giving rise to the spinal cord)

Answer 50

induction of neural plate

Question 51

The node induces the:

Answer 51

body axis

Question 52

The node induces and specifies the fate of the ___ as it is formed

Answer 52

mesoderm

Question 53

The node is responsible for creation of ____ in the ___.

Answer 53

asymmetry in the symmetrical embryo

Question 54

The node first establishes ____, and then conversion into ___.

Answer 54

molecular asymmetry; asymmetric organogenesis

Question 55

during the process of establishing molecular asymmetry, there is asymmetric expression of ____ around the node

Answer 55

morphogenic factors

Question 56

The asymmetric expression of morphogenic factors (such as SHH, BMP4 & FGF8) around the node initiates a cascade of gene expression to promote:

Answer 56

asymmetric specialization/ commitment of mesoderm

Question 57

Nodal cells each have:

Answer 57

one motile cilia

Question 58

a membrane covered extension from the cell that has a microtubule cytoskeleton core which helps define the properties of it:

Answer 58

cilium

Question 59

Cilium can be:

Answer 59

mechanosensory or rotational

Question 60

Nodal cilia have a ___ beat (for a few hours only)

Answer 60

rotational

Question 61

The nodal cilia have a rotational beat (for a few hours only) that generate a ____, resulting in asymmetric distribution of morphogens/growth factors

Answer 61

leftward flow

Question 62

Reproducible morphological & functional asymmetries in nearly all:

Answer 62

internal organs

Question 63

Organ asymmetry is an evolutionarily ____ in vertebrates

Answer 63

conserved mechanism

Question 64

In mice, ~ ____ genes affect L-R asymmetry and these genes affect the function of ___.

Answer 64

27; cilia

Question 65

Normal range of internal organs:

Answer 65

situs solitus

Question 66

Where all organs are on the complete opposite side of the body, 1-8500: 1-10k individuals experience this and results in NORMAL health

Answer 66

situs inversus

Question 67

____ can be deleterious such as ___ & ___

Answer 67

partial situs; right & left isomerism

Question 68

Neural tube formation:

Answer 68

neurulation

Question 69

The neural tube is the precursor to:

Answer 69

brain & spinal cord

Question 70

During neurulation, factors from the ___ induce the thickening of the overlying ___.

Answer 70

mesoderm; ectoderm

Question 71

During neurulation, factors from the mesoderm induce the thickening of the overlying ectoderm leading to the:

Answer 71

neural plate

Question 72

During neurulation, signals from the ___ induce a “hinge” point (floor plate) to help drive folding

Answer 72

notochord

Question 73

During neurulation, ___ patterning of ___ begins

Answer 73

D-V patterning of neurons

Question 74

The morphological difference of the anterior-most region of the neural tube reflects ___ and thus ___

Answer 74

unique underlying cellular identities; different inductive cues

Question 75

The 3 components that are really defining segments of the future brain that produce different cues (secreted factors)

Answer 75

1. notochord
2. pre-chordal plate
3. anterior visceral endoderm

Question 76

____ ( transcription factor) is expressed in anterior visceral endoderm and is involved in anterior specification

Answer 76

LIM1 gene

Question 77

The advanced maturity of the anterior end of the neural tube leads to an ______ and eventually a future brain

Answer 77

expanded neural plate

Question 78

Closure of the neural tube proceeds ___ and ____ from the mid-region

Answer 78

anteriorly & posteriorly

Question 79

By the end of week 3, head and neck regions comprise:

Answer 79

nearly half of the embryo

Question 80

List the disease resulting from defects in neural tube closure towards the posterior end:

Answer 80

1. open spina bifida
2. closed spina bifida

Question 81

List the disease resulting from defects in neural tube closure towards the middle/ middle anterior portion:

Answer 81

1. craniorachischisis
2. encephalocele

Question 82

List the disease resulting from defects in neural tube closure towards the anterior end:

Answer 82

1. anencephaly
2. iniencephaly

Question 83

Head formation =

Answer 83

cephalization

Question 84

The ____ serves as the hinge point during cephalization

Answer 84

oropharyngeal membrane

Question 85

At the very anterior end there is a midline region where the ectoderm and endoderm contact each other directly where there is no mesoderm between:

Answer 85

oropharyngeal membrane

Question 86

folding of the hole embryo occurs while:

Answer 86

cephalization occurs

Question 87

____ is concomitant with formation of pharyngeal arches (face & neck)

Answer 87

embryonic folding

Question 88

During embryonic folding ___ & ___ specialization occurs

Answer 88

foregut & hindgut

Question 89

A unique population of (pluripotent), stem-like cells originating at the “crest” of the enclosing neural tube:

Answer 89

neural crest cells

Question 90

Where do neural crest cells originate?

Answer 90

At the “crest” of the enclosing neural tube

Question 91

Neural crest cells migrate ___ to populate the ___ side of the embryo

Answer 91

Ventro-laterally; ventral

Question 92

Neural crest cells differentiate into a:

Answer 92

wide variety of cell types/tissues

Question 93

NCC are generated by a process of ___

Answer 93

Epithelial-mesenchymal transformation

Question 94

NCC are generated by a process of EMT that is analogous to the generation of the:

Answer 94

third germ layer (mesoderm)

Question 95

Drives the outgrowth of the primitive tissue masses that will form much of the head and neck:

Answer 95

Cranial neural crest cell (CNCC) migration

Question 96

Describe the potential of cranial neural crest cells (CNCC):

Answer 96

unique in developmental potential (distinct from other neural crest cells)

Question 97

CNCC can be referred to as a “____” and is vertebrate specific

Answer 97

second wave of development

Question 98

Major contributor to craniofacial structure, and specifically to mineralized tissues of the oral region

Answer 98

CNCC

Question 99

• sensory nervous system
• autonomic nervous system
• pigment cells
• endocrine & paraendocrine cells

These are all major derivatives of:

Answer 99

neural crest

Question 100

• mesectodermal cells
• skeleton
• connective tissue
• muscle

These are all:

Answer 100

CNCC- specific tissue contributions

Question 101

CNCC fate is determined:

Answer 101

prior to departure from neural tube

Question 102

CNCC fate is determined prior to departure from the neural tube meaning they have:

Answer 102

positional identities

Question 103

There are multiple visible constrictions in the neural tube including:

Answer 103

• rhombomeres 1-8
• the diencephalon
• the anterior mesencephalon

Question 104

Define distinct populations of CNCC and their route of migration into early facial tissue:

Answer 104

The multiple visible constrictions in the neural tube

Question 105

directed CNCC migration involves ___ paths of migration

Answer 105

reproducible

Question 106

The directed CNCC migration that involve reproducible paths of migration are defined by:

Answer 106

mesoderm

Question 107

Pharyngeal arches ___ are populated by NC cells from rhombomeres ___ respectively

Answer 107

1,2,3 & 2,4,6

Question 108

If r2 cells are transplanted into r4 position, migration still occurs through ___ but cells differentiate into structures characteristic of ___.

Answer 108

arch 2; arch 1

Question 109

Early molecular patterning established during ___ enables later ___.

Answer 109

gastrulation; coordinated tissue morphogenesis

Question 110

Embryogenesis is a ____ process (Not ___)

Answer 110

generative; descriptive

Question 111

____ & ____ can result from:

• single changes in gene sequence
• combinations of normal gene variants
• changes in the environment to which cells respond

Answer 111

malformation & normal phenotypic variation