exam review

Question 1

Folding of neural plate

Answer 1

Results in formation of neural groove flanked by neural folds; Median hinge point: induced by notochord, Involves changes in shape of columnar cells to pyramidal-shaped
cells via apical constriction, Requires synthesis of actin filaments at apical ends of cells; Lateral hinge points: Also involve apical constriction by actin filaments; Elevation of neural folds: Due to pushing inward by expanding non-neural epithelium

Question 2

Anterior neural ridge signaling center:

Answer 2

Important in organizing telencephalon, parts of diencephalon,
olfactory area, and pituitary gland - Secretes Shh and FGF-8

Question 3

zona limatns signaling center

Answer 3

Organizes border between dorsal and ventral thalamus - Secretes Shh

Question 4

increase in FGF-8 concentration in the wavefront mechanism leads to?

Answer 4

mitosis in mesenchymal cells in posterior primitive streak

Question 5

increase in RA concentration in the wavefront mechanism leads to?

Answer 5

more anteirorly opposes action of FGF-8

Question 6

what results in a cessation of somitogenese?

Answer 6

the balance b/w the opposing gradients of RA and FGF-8 (also causes expression of Mesp-2

Question 7

what molecule become concentrated at the furture anterior border of a somite and what at the future posterior border in the segmentation clock?

Answer 7

anterior border - lunatic fringe

posterior border - c-hairy

Question 8

what do cells at the anterior and posterior border of a somite express in the segmentaiton clock?

Answer 8

anterior: express Eph A
posterior: express Eph B

Question 9

in somite differntiation, what drive the change from mesenchymal cells to epithelial cells?

Answer 9

paraxis + decrease in snail

Question 10

role of noggin and BMP-4 in the dermomyotome of somite organization

Answer 10

Noggin inhibits BMP-4 which is produced by the lateral plate and suppresses myogenesis in ventrolateral dermomyotome and stimulates cells from here to migrate into the limb bud

Question 11

role of FGF in somite organization

Answer 11

FGF from myotome signal sclerotme to produce scleraxis which causes ant. and post. borders of each somite to from the syndetome (precursor of tendons)

Question 12

intermediate mesoderm

Answer 12

responds to BMP from lateral ecto and activin from paraxial meso and become intermediate meso and starts to express pax-2

Question 13

cranial and caudal extent of the intermediate meso is dependent on expression of what genes?

Answer 13

Hox-4 - Hox-11

Question 14

where do early hear forming cells arise from?

Answer 14

epiblast then migrate through primative streak (anterior = outflow tract middle = ventricles posterior = atria)

Question 15

HCG

Answer 15

secreted by syncytialtrophoblast cells; measurable 8-9 days after ovulation but max secretion at 10-12 weeks; functions to prevent involution of CL, increase progesterone/estrogen secretion from CL, increase growth of CL, stimulate male testes (testosterone)

Question 16

estrogens

Answer 16

Secreted by syncytiotrophoblast cells of placenta; Placental estrogens are formed almost entirely from androgenic steroid compounds: found in mother’s and fetal’s adrenal glands; converted by trophoblast cells into estradiol, estrone, and estriol; fns: Uterine and breast enlargement; growth of breast ductal structure; enlargement of maternal external genitalia; relaxation of pelvic ligaments; may also affect aspects of fetal development

Question 17

progesterone

Answer 17

Secreted in small quantities by corpus luteum early and secreted in large quantities by placenta; Causes decidual cells to develop in the endometrium; decreases contractility of pregnant uterus; increases secretions of Fallopian tubes and uterus; may work w/ estrogen to prepare breasts for lactation

Question 18

human chorionic somatomammotropin

Answer 18

secreted by placenta beginning in 5th week of pregnancy; function: decreased insulin sensitivity and decreased utilization of glucose by mother; general metabolic hormone

Question 19

disruptions

Answer 19

disturbances in otherwise normal morphgenetic processes. (amniotic bands)

Question 20

deformations

Answer 20

disturbances in otherwise normal morphogenetic processes typically caused by abnormal biomechanical forces (uterine contraints - club foot)

Question 21

sequences

Answer 21

cascade of events triggered by one initiating factor (complement) (oligohydramnios)

Question 22

syndromes

Answer 22

contellatoins of congenital anomalies that are thought to be pathologically related but cannot be explained on the basis of a signle local initial event; often caused by single event like viral infection

Question 23

effects of thalidomide

Answer 23

limb defects, ear defects, cardiovascular anomalies

Question 24

effects of alcohol

Answer 24

growth/mental retardation, microcephaly, malformations of face/trunk

Question 25

effects of RA

Answer 25

defects related to cranial neural crest ; facial structures, outflow tract, thymus

Question 26

when do fetal blood cells reach the maternal blood stream?

Answer 26

during last trimester or during childbirth itself

Question 27

what is the major factor of immune hydrops?

Answer 27

D ag of Rh group

Question 28

melanoblast

Answer 28

from neural crest; migrate into dermis then epidermis; stain w/ HMB-45; produce pigment by mid-pregnancy

Question 29

langerhans are derived from?

Answer 29

bone marrow

Question 30

merkel cells

Answer 30

from neural crest, slow-adapting mechano-receptors

Question 31

progesterone in mammary gland stimulates?

Answer 31

formation of secretory alveoli

Question 32

prolactin

Answer 32

stimulates synthesis of milk protein and fats

Question 33

origin of skeletal tissue?

Answer 33

mesenchymal in origin

Question 34

what happens when all Hox10 paralogues are knocked out?

Answer 34

ribs form on the lumbar and sacral vert.

Question 35

mesodermal scleretome derivatives

Answer 35

vertebral column, ribs, sternum

Question 36

derivatives of lateral plate meso, head meso and neural crst.

Answer 36

lateral plate meso: limb bones and girdles; head: calvaria and bas of skull; nc: facial bones

Question 37

Neurocranium

Answer 37

Part of the skull that surrounds the brain; has cartilaginous portion and membranous portion; base formed from chondrocranium - origin of occipital, sphenoid, ethmoid, and parts of temporal; membranous part - origin of occipital, parietal so, frontals, part of temporals

Question 38

Viscerocranium

Answer 38

(Refers to pharyngeal arches); surrounds oral cavity and pharynx; cartilagenous portion - forms pharyngeal arch I and II; membranous portion forms - temporal, zygomatic, maxillary, nasal, lacrimal, alanine, vomer, pterygoid plates, mandible, tympanic ring

Question 39

the mesenchyme that formst the viscerocranium is mostly from ?

Answer 39

neural crest

Question 40

what cranial nerves are the pharyngeal arches associated w?

Answer 40

I: CN V
II: CN VII

Question 41

elongation of primary ossification centers is due to?

Answer 41

Shh

Question 42

what is expressed in all sutures?

Answer 42

Noggin; it suppresses BMP which otherwise would lead to the sutures closing

Question 43

what does actual morphogensis of muscles depend on?

Answer 43

associated CT framework

Question 44

epaxial muscles and tendons arise from ?

Answer 44

epaxial muscle: dorsal lip of myotome

epaxial tedons: syndetome layer w/i somites

Question 45

hypaxial muscles and tendons arise from ?

Answer 45

hypaxial muscles: ventral buds of myotome

hypaxial tendosn :lateral plate mesoderm

Question 46

limb muscles and tendons arise from?

Answer 46

ventrolateral dermomyotome

Question 47

extraocular muscles arise from?

Answer 47

prechordal plate

Question 48

some cranial musculature like lower jaw is derived from?

Answer 48

splanchnic mesoderm

Question 49

remove half limb disc and ?

Answer 49

remaining half will form a complete limb

Question 50

vertically divide limb disc into 2 halves and physically separate the 2 halves and ?

Answer 50

each half will form a normal limb

Question 51

fuse 2 limb discs together and ?

Answer 51

a single normal limb will form

Question 52

transplant a limb disc to the oposite side ?

Answer 52

AP axis is reversed but not DV axis but normal limb will form

Question 53

rotate limb disc 180 degrees

Answer 53

both AP and DV axis will be reversed but norma limb will form will only AP axis reversed

Question 54

transplant a strip of flank tissue from just posterior to the limb disc to an ectopic site just anterior to limb disc and ?

Answer 54

resulting limb consists of 2 posterior halves arranged in a mirror-image fashion meaning a strip of flank tissue just posterior to the limb organizes the posterior edges of the disc

Question 55

what determines postition of ZPA via highest concentration?

Answer 55

Hoxb8 - induced by RA

Question 56

Shh role in formation of anterior - posterior axis

Answer 56

maintain strucutre and function of AER, induces expression of gremlin, and inhibits Gli-3 in posterior limb bud

Question 57

Gli-3 role in formation of AP axis

Answer 57

active in anterior part of limb bud; inhibits Shh in anterior limb bud

Question 58

Formation of DV axis

Answer 58

Dorsal limb bud ecto signal Wnt-7a which induces dorsal limb meso to express Lmx-1b; ventral limb bud ecto produces En-1 which inhibits Wnt-7a

Question 59

Formation of Proximodistal axis

Answer 59

AER (if removed limb would stop growth) uses FGFs and Wnts to keel cells in underlying mesenchyme in a proliferative state; cells that get left behind as limb bud grows distal become postmitotic and differentiate in to a part of the limb;

Question 60

morphology of the limb is due to?

Answer 60

expression of Hox genes

Question 61

the structure of the developing limb in every case is determined by what?

Answer 61

the nature of the mesodermal components

Question 62

what maintains AER in healthy state?

Answer 62

apical ectoderm maintenacne factore (AEMF) produced by mesoderm

Question 63

what do hypertrophic cells express?

Answer 63

ihh

Question 64

limb muscle development

Answer 64

migrating premuscle cells express Pax-3 and Ncadherin; before migrating to limb bud, they express c-met which is the receptor for scatter factor; differentiation of premsucle cells into muscle in limb bud depend on Wnt-6 expressed by ectoderm; Tcf-4 is expressed by the CT associted w/ the muscle masses

Question 65

axons originating from more medial locations in the spinal cord grow into ?

Answer 65

ventral muscle mass

Question 66

axons originating in more lateral locations grow into?

Answer 66

dorsal muscle

Question 67

ant. muscles will be inn by axons originating where?

Answer 67

anterior form spinal cord (and posteiror muscles by axons post. to spinal cord)

Question 68

If the forelimb rudiment of a salamander embryo is removed so that the limb fails to develop:

Answer 68

The nerves of the brachial plexus remain smaller (thinner) than they would have been if the limb were still there; spinal ganglia three, four, and five (associated with the brachial plexus in the salamander) are also smaller. The number of cells in each ganglion may be reduced by as much as 50 percent.

Question 69

If an additional limb rudiment is transplanted to the flank of a salamander embryo:

Answer 69

The local spinal nerves supply the innervation to the transplanted limb and these local nerves increase in thickness; Ganglia associated with these nerves increase in size; the increase in number of cells may be as much as 40 percent.

Question 70

If the forelimb rudiment of an amphibian embryo, prior to the outgrowth of nerves, is cut out and transplanted to a position very near the original one:

Answer 70

The brachial nerves will deviate from their normal paths and will be deflected in the direction of the transplanted limb. If the distance of the transplanted limb from the original position is not too great, the brachial nerves will penetrate into the limb and ramify. The limb becomes fully functional.

Question 71

If an additional limb is transplanted into the immediate

vicinity of the host limb:

Answer 71

The brachial nerves will develop branches running out to the additional limb and will supply it.

Question 72

If the normal path of the nerves is blocked by some obstacle

Answer 72

The outgrowing nerves may avoid the obstacle, go around it, and still reach their normal destination; Hamburger inserted a piece of mica into a frog embryo between the spinal cord and the region where the hindlimb rudiments were to develop. The nerves formed loops around the mica plate and still reached the hindlimb rudiments.

Question 73

If the limb rudiment transplant is placed farther away from
the normal limb site, or if the obstacle between the spinal
cord and the limb rudiment is too great:

Answer 73

The nerve fibers fail to be attracted to the limb; If the limb rudiment is placed on the flank of the embryo, it will attract the local spinal nerves. These nerves will grow into the limb, but they cannot provide for the normal limb function; It appears that only the areas of the spinal cord from which the nerves of the brachial and lumbar plexuses originate possess the properties necessary for controlling the functioning of the limbs.