Lecture 1: Development of the Alimentary and Paraalimentary Tract

Question 1

What is a stomodeum?

Answer 1

A depression between the brain and the pericardium in an embryo
Precursor of the MOUTH and the anterior lobe of the pituitary gland

Question 2

Where does the foregut (cranial end) of the gut tube terminate?

Answer 2

At the buccopharyngeal membrane

Question 3

Where does the hindgut (caudal end) terminate?

Answer 3

Cloacal membrane

Question 4

What is the proctodeum?

Answer 4

Back ectodermal part of alimentary canal
Forms the lower part of the anal canal, below the pectinate line
Lined by stratified squamous non-keratonized and stratified squamous keratinized epithelium
Hilton’s white line
Source: http://en.wikipedia.org/wiki/Proctodeum

Question 5

Where is the epithelium of the alimentary tract derived from?

Answer 5

The ectoderm of the stomodeum and proctodeum respectively

Question 6

What is the alimentary canal?

Answer 6

The tubular passage that extends from mouth to anus
Functions in digestion and absorption of food and elimination of residual waste and includes the mouth, pharynx, esophagus, stomach, small intestine and large intestine

Question 7

When does the vitelline duct appear? Significance?

Answer 7

26 days postfertilization (DPF)

Significance is that this is when the midgut region of the gut tube is no longer open to the yolk sac

Question 8

What is atresia?

Answer 8

Congenital absence of closure of a normal body opening or tubular structure

Question 9

What is recanalization?

Answer 9

Formation of new canals or paths, especially blood vessels through an obstruction such as a clot
Spontaneous restoration of the lumen of an occluded duct or tube

Question 10

When does occlusion of the gut tube occur? When does it recanalize?

Answer 10

During week 6
Endodermal epithelium proliferates to occlude the gut tube
Recanalizes by week 8

Question 11

When does the endodermal lining of the gut lumen differentiate into definitive mucosal epithelium?

Answer 11

Week 9

Question 12

What happens when there is a defect in recanalization?

Answer 12

Stenosis

Atresia at various positions of the gut tube

Question 13

What are the derivatives of the foregut?

Answer 13

1. Pharynx
2. Thoracic esophagus
3. Abdominal esophagus
4. Stomach
5. Superior duodenum

Question 14

What are the derivatives of the midgut?

Answer 14

1. Inferior duodenum
2. Jejunnum
3. Ileum
4. Cecum
5. Appendix
6. Ascending colon
7. Transverse colon (right 2/3)

Question 15

What are the derivatives of the hindgut?

Answer 15

1. Transverse colon (left 1/3)
2. Descending colon
3. Sigmoid colon
4. Rectum
   Urogenital sinus and derivatives??

Question 16

How do you tell what comes from foregut, midgut and hindgut?

Answer 16

Remember that the foregut and midgut is separated by superior and inferior duodenum, respectively
After that it is pretty easy, since the watershed area (2/3 of your way into the transverse colon) is the exact position where mid/hind gut are differentiated

Question 17

What artery supplies the abdominal foregut?

Answer 17

CELIAC artery

i. abdominal esophagus
ii. stomach
iii. superior duodenum
iv. and its derivatives

Question 18

What artery supplies the midgut?

Answer 18

SUPERIOR mesenteric artery

i. inferior duodenum	
ii. small intestines
iii. ascending colon
iv. 2/3 of transverse colon

Question 19

What artery supplies the hindgut?

Answer 19

INFERIOR mesenteric artery

i. 1/3 of transverse colon	
ii. descending colon
iii. sigmoid colon
iv. rectum

Question 20

What is the thoracic foregut supplied by?

Answer 20

Pharynx and thoracic esophagus are supplied by aortic branches

Question 21

What is a diverticulum?

Answer 21

An abnormal sac or pouch formed at a weak point in the wall of the alimentary tract

Question 22

What is the respiratory diverticulum? When does it form?

Answer 22

The “lung bud”
Forms at 22 dpf
Ventral outpouching of the thoracic esophagus

Question 23

When does the respiratory diverticulum bifurcate into the left and right bronchial buds?

Answer 23

26-28 dpf

Question 24

What are the bronchial buds?

Answer 24

The rudiments of the two lungs

Question 25

What is the process of lung formation?

Answer 25

1. Resiratory diverticulum (22dpf)
2. Bronchial buds (26-28 dpf)
3. Secondary bronchial buds (5th week)
4. Terminal bronchioles (Week 16)
5. Respiratory bronchioles (Week 28)
6. Terminal sacs aka primitive alveoli (Week 36)

Question 26

What is the process of stomach formation?

Answer 26

1. Week 4: straight tube connected to dorsal body by DORSAL MESENTERY
   1a: dorsal wall of stomach grows faster than ventral wall to result in greater and lesser curvature
2. Week 5: caudal portion of septum transversum thins to become the ventral mesentery connecting stomach to ventral body wall
3. 7-8 weeks: differential thinning of right side of dorsal mesentery results in 90 degree rotation of stomach around craniocaudal axis

Question 27

What is the cardiac incisure?

Answer 27

The point at which lesser curvature of the stomach meets the pyloric antrum of the stomach

Question 28

What is the septum transversum?

Answer 28

A thick mass of cranial mesenchyme that gives rise to thoracic diaphragm and ventral mesentery of foregut

Question 29

What causes the rotation of the stomach? Significance?

Answer 29

A differential thinning of the right side of the dorsal mesentery
90 degree rotation around craniocaudal axis
Rotation causes duodenum to adhere to the dorsal body wall
Forms the lesser sac of the peritoneal cavity, dorsal to the stomach
Rotation is CLOCKWISE (if you are looking down at the rotation or if you are standing superiorly over the rotation)

Question 30

Where is the greater curvature of the stomach located at first?

Answer 30

Dorsal

Question 31

Where is the lesser curvature of the stomach located at first?

Answer 31

Ventral

Question 32

What is the epiploic foramen?

Answer 32

AKA omental foramen
Foramen of Winslow
Passage between the greater sac (general cavity of abdomen) and the lesser sac

Question 33

What is the lesser sac?

Answer 33

The cavity in the abdomen formed by the lesser and greater omentum

Question 34

What are the secondarily retroperitoneal structures?

Answer 34

Structures that were initially suspended from the dorsal mesentery but got attached to the body wall

i. duodenum
ii. pancreas
iii. colon

Question 35

What structures retroperitoneal?

Answer 35

1. kidney

2. bladder

Question 36

How does the liver form?

Answer 36

Day 22, hepatic plate appears on ventral side of duodenum
Cells proliferate a few days later (Day 25) to form the hepatic diverticulum
Grows into ventral mesentery
Diverticulum gives rise to liver cords

Question 37

What do liver cords give rise to?

Answer 37

1. hepatocytes
2. bile canaliculi
3. hepatic ducts
   Comes from hepatic diverticulum that appears on ventral side of duodenum

Question 38

What connects the liver to the ventral body wall?

Answer 38

Falciform ligament

Comes from ventral mesentery that holds liver to ventral body wall

Question 39

What is the region of the ventral mesentery connecting the liver to the stomach?

Answer 39

Lesser omentum

Question 40

What is the lesser omentum?

Answer 40

The region of the ventral mesentery connecting the liver to the stomach

Question 41

What happens to the lesser omentum when stomach rotates?

Answer 41

It is repositioned from a sagittal to a coronal plane

Reduces connection between greater and lesser peritoneal sacs to epiploic foramen

Question 42

How is the gallbladder and cystic duct formed?

Answer 42

Cystic diverticulum forms as a second endodermal thickening on ventral side of duodenum
Caudal to hepatic diverticulum
Gives rise to gallbladder + cystic duct

Question 43

What is the cystic duct?

Answer 43

The duct that joins the gall bladder to the common bile duct

Question 44

How does the pancreas form?

Answer 44

Day 26 DORSAL pancreatic bud forms on duodenum OPPOSITE of the hepatic diverticulum
A VENTRAL pancreatic bud grows into the ventral mesentery (inferior to liver) by day 32
Main duct of ventral bud connects to the bile duct
Week 5: bile duct and ventral pancreatic bud migrate around the duodenum to the dorsal mesentery
Week 6: pancreatic buds fuse to form the definitive pancreas
After fusion, duct from dorsal bud degenerates to leaveventral bud as only attachment (via main pancreatic duct) to the duodenum
Fuses to the body wall to become secondarily retroperitoneal

Question 45

When does the ileum get distinguished from the colon?

Answer 45

Week 5

Question 46

How does the ileum get distinguished from the colon?

Answer 46

By the presence of a CECAL primordium at the junction between the two

Question 47

What is the cecum?

Answer 47

The junction between the ileum and the ascending colon

Question 48

What is the primary intestinal loop?

Answer 48

A dorso ventral hairpin fold
Caused by the fact that the ileum lengthens more rapidly than abdominal cavity
Cranial end = ileum
Caudal end = ascending and transverse colon

Question 49

What is attached to turn of the primary intestinal loop (most ventral extreme)?

Answer 49

The vitelline duct

Question 50

Why does the primary intestinal loop herniate into the umbilicus?

Answer 50

Because of the continued elongation of midgut and growth of abdominal organs

Question 51

How does the cranial and caudal ends of the primary intestinal loop rotate?

Answer 51

Counter-clockwise
A total of 270 degrees
90 degrees by week 8
Another 180 degrees by week 10

Question 52

When does the primary intestinal loop rotate by 180 after it is already rotated by 90?

Answer 52

Because it is retracted into the abdominal cavity

Question 53

What happens from week 8 to week 10?

Answer 53

Midgut differentiation
Lengthening and folding of jejunum and ileum
Formation of vermiform appendix

Question 54

When are the small and large intestines attached in final positions?

Answer 54

Week 11

Question 55

What happens after large intestine returns to the abdominal cavity (retraction of the primary intestinal loop)?

Answer 55

The dorsal mesenteries retracts and the cecum and ascending colon get attached to the dorsal body wall, making them secodnarily retroperitoneal

Question 56

What is the descending colon suspended by?

Answer 56

Dorsal body wall after dorsal mesentery retracts

Secondarily retroperitoneal

Question 57

What is the sigmoid colon suspended by?

Answer 57

Dorsal mesentery

Peritoneal

Question 58

What does the distal end of the hindgut form?

Answer 58

Cloaca

An expansion that is sealed by cloaal membrane

Question 59

What is the cardiac incisure?

Answer 59

The point at which lesser curvature of the stomach meets the pyloric antrum of the stomach

Question 60

What is the septum transversum?

Answer 60

A thick mass of cranial mesenchyme that gives rise to thoracic diaphragm and ventral mesentery of foregut

Question 61

What causes the rotation of the stomach? Significance?

Answer 61

A differential thinning of the right side of the dorsal mesentery
90 degree rotation around craniocaudal axis
Rotation causes duodenum to adhere to the dorsal body wall
Forms the lesser sac of the peritoneal cavity, dorsal to the stomach
Rotation is CLOCKWISE (if you are looking down at the rotation or if you are standing superiorly over the rotation)

Question 62

Where is the greater curvature of the stomach located at first?

Answer 62

Dorsal

Question 63

Where is the lesser curvature of the stomach located at first?

Answer 63

Ventral

Question 64

What is the epiploic foramen?

Answer 64

AKA omental foramen
Foramen of Winslow
Passage between the greater sac (general cavity of abdomen) and the lesser sac

Question 65

What is the lesser sac?

Answer 65

The cavity in the abdomen formed by the lesser and greater omentum

Question 66

What are the secondarily retroperitoneal structures?

Answer 66

Structures that were initially suspended from the dorsal mesentery but got attached to the body wall

i. duodenum
ii. pancreas
iii. colon

Question 67

What structures retroperitoneal?

Answer 67

1. kidney

2. bladder

Question 68

How does the liver form?

Answer 68

Day 22, hepatic plate appears on ventral side of duodenum
Cells proliferate a few days later (Day 25) to form the hepatic diverticulum
Grows into ventral mesentery
Diverticulum gives rise to liver cords

Question 69

What do liver cords give rise to?

Answer 69

1. hepatocytes
2. bile canaliculi
3. hepatic ducts
   Comes from hepatic diverticulum that appears on ventral side of duodenum

Question 70

What connects the liver to the ventral body wall?

Answer 70

Falciform ligament

Comes from ventral mesentery that holds liver to ventral body wall

Question 71

What is the region of the ventral mesentery connecting the liver to the stomach?

Answer 71

Lesser omentum

Question 72

What is the lesser omentum?

Answer 72

The region of the ventral mesentery connecting the liver to the stomach

Question 73

What happens to the lesser omentum when stomach rotates?

Answer 73

It is repositioned from a sagittal to a coronal plane

Reduces connection between greater and lesser peritoneal sacs to epiploic foramen

Question 74

How is the gallbladder and cystic duct formed?

Answer 74

Cystic diverticulum forms as a second endodermal thickening on ventral side of duodenum
Caudal to hepatic diverticulum
Gives rise to gallbladder + cystic duct

Question 75

What is the cystic duct?

Answer 75

The duct that joins the gall bladder to the common bile duct

Question 76

How does the pancreas form?

Answer 76

Day 26 DORSAL pancreatic bud forms on duodenum OPPOSITE of the hepatic diverticulum
A VENTRAL pancreatic bud grows into the ventral mesentery (inferior to liver) by day 32
Main duct of ventral bud connects to the bile duct
Week 5: bile duct and ventral pancreatic bud migrate around the duodenum to the dorsal mesentery
Week 6: pancreatic buds fuse to form the definitive pancreas
After fusion, duct from dorsal bud degenerates to leaveventral bud as only attachment (via main pancreatic duct) to the duodenum
Fuses to the body wall to become secondarily retroperitoneal

Question 77

When does the ileum get distinguished from the colon?

Answer 77

Week 5

Question 78

How does the ileum get distinguished from the colon?

Answer 78

By the presence of a CECAL primordium at the junction between the two

Question 79

What is the cecum?

Answer 79

The junction between the ileum and the ascending colon

Question 80

What is the primary intestinal loop?

Answer 80

A dorso ventral hairpin fold
Caused by the fact that the ileum lengthens more rapidly than abdominal cavity
Cranial end = ileum
Caudal end = ascending and transverse colon

Question 81

What is attached to turn of the primary intestinal loop (most ventral extreme)?

Answer 81

The vitelline duct

Question 82

Why does the primary intestinal loop herniate into the umbilicus?

Answer 82

Because of the continued elongation of midgut and growth of abdominal organs

Question 83

How does the cranial and caudal ends of the primary intestinal loop rotate?

Answer 83

Counter-clockwise
A total of 270 degrees
90 degrees by week 8
Another 180 degrees by week 10

Question 84

When does the primary intestinal loop rotate by 180 after it is already rotated by 90?

Answer 84

Because it is retracted into the abdominal cavity

Question 85

What happens from week 8 to week 10?

Answer 85

Midgut differentiation
Lengthening and folding of jejunum and ileum
Formation of vermiform appendix

Question 86

When are the small and large intestines attached in final positions?

Answer 86

Week 11

Question 87

What happens after large intestine returns to the abdominal cavity (retraction of the primary intestinal loop)?

Answer 87

The dorsal mesenteries retracts and the cecum and ascending colon get attached to the dorsal body wall, making them secodnarily retroperitoneal

Question 88

What is the descending colon suspended by?

Answer 88

Dorsal body wall after dorsal mesentery retracts

Secondarily retroperitoneal

Question 89

What is the sigmoid colon suspended by?

Answer 89

Dorsal mesentery

Peritoneal

Question 90

What does the distal end of the hindgut form?

Answer 90

Cloaca

An expansion that is sealed by cloaal membrane

Question 91

What is the allantois?

Answer 91

A small diverticulum

Extends from cloaca into the connecting stalk (future umbilicus)

Question 92

What happens to the cloaca?

Answer 92

Divides into posterior rectum and anterior primitive urogenital sinus
Urorectal septum is formed
Week 4-6

Question 93

What forms the urorectal septum?

Answer 93

3 folds of tissue
Superior fold = Tourneux fold
Inferior folds = Rathke folds

Question 94

What is the perineum?

Answer 94

The zone of fusion between urogenital membrane and anal membrane

Question 95

What is the proctodeum?

Answer 95

AKA anal pit
Formed by mesenchyme surrounding anal membrane that proliferates into a raised ectodermal structure
Invaginates into anorectal canal in week 8

Question 96

What is the pectinate line?

Answer 96

The line between the inferior 1/3 of anorectal canal and superior 2/3

Question 97

What is the embryologic derivation of anorectal canal?

Answer 97

Inferior 1/3 = ectodermal
Superior 2/3 = endodermal
Because of proctodeum (which is ectodermal)

Question 98

What are the three esophageal anomalies that happen as a result of embryological malformation?

Answer 98

1. Esophageal atresia
2. Esophageal stenosis
3. Short esophagus

Question 99

What are the two ways esophageal atresia can occur?

Answer 99

1. tracheoesophageal fistula

2. failure of recanalization (associated with anorectal atresia)

Question 100

What is a fistula?

Answer 100

An abnormal CONNECTION between an organ, vessel or intestine and another structure

Question 101

What are most cases of esophageal atresia associated with?

Answer 101

Tracheoesophageal fistula (abnormal connection)
85%
When the septum separating the trachea and esophagus is displaced caudally

Question 102

What are the sequelae to tracheoesophageal fistula that causes esophageal atresia?

Answer 102

A fetus cannot swallow and dispose of amniotic fluid
Accumulation of amniotic fluid
Polyhdramnios
In a newborn, the first swallow is normal but the fluid is suddenly expelled and respiratory distress occurs

Question 103

What is polyhydraminos?

Answer 103

When there is an accumulation of amniotic fluid
This can happen with a baby with esophageal atresia due to tracheoesophageal fistula
-Cannot swallow and dispose of amniotic fluid

Question 104

What are the key characteristics of esophageal stenosis?

Answer 104

Narrowing of the esophagus
Due to incomplete recanalization
Occurs anywhere along esophagus

Question 105

What are the key characteristics of a short esophagus?

Answer 105

A failure of esophagus to elongate because stomach is displaced into the thoracic cavity
Called congenital hiatal hernia

Question 106

What is a congenital hiatal hernia?

Answer 106

When the esophagus fails to elongate and stomach goes through diaphragm

Question 107

What are the three embryological anomalies of the stomach?

Answer 107

1. Congenital hypertrophic Pyloric Stenosis
2. Duodenal Stenosis
3. Duodenal Atresia

Question 108

What are the key characteristics of Congenital Hypertrophyic Pyloric stenosis?

Answer 108

Stomach anomaly
Involves a thickening of the pylorus, resulting in severe stenosis, obstruction to food passage
Newborns with this condition display a distended stomach and PROJECTILE VOMITING

Question 109

What is the pylorus?

Answer 109

The region of the stomach that connects to the duodenum
Divided into two parts
i. pyloric antrum (connects to body of stomach)
ii. pyloric canal (connects to duodenum)

Question 110

What are the key characteristics of duodenal stenosis?

Answer 110

Stomach anomaly
Narrowing of dudodenal lumen due to incomplete RECANALIZATION
Characterized by expulsion of stomach contents that contain BILE

Question 111

What are the key characteristics of duodenal atresia?

Answer 111

Stomach anomaly
COMPLETE blockage of duodenum occurs in 30% of Down’s infants and 20% of premature births
Failure of recanalization
Vomiting begins within few hours and expels bile

Question 112

What are the anomalies of the liver and cystic ducts?

Answer 112

1. Duct anomalies (variations in the shape of hepatic, cystic and bile ducts)
2. Extrahepatic Biliary atresia

Question 113

What are the key characteristics of extrahepatic biliary atresia?

Answer 113

1/10,000 births
Obstruction of bile duct
Failure to canalize 
OR
Liver infection in the fetus
Clinical sympoms = JAUNDICE

Question 114

What are the anomalies of the pancreas?

Answer 114

1. Accessory Pancreatic tissue

2. Anular Pancreas

Question 115

What are the key characteristics of Accessory Pancreatic Tissue?

Answer 115

Inappropriate interaction of pancreatic mesenchyme with nonpancreatic endodermal epithelium
Results in formation of pancreatic tissue in stomach, duodenum and ileal (Meckel’s) diverticulum

Question 116

What are the key characteristics of Anular pancreas?

Answer 116

When ventral pancreatic bud forms as two attached buds
When two ventral buds rotate in opposite direction to fuse with dorsal bud, a thin band of pancreatic tissue surround duodenum
Band can cause duodenal stenosis or atresia after birth
Due to inflammation and malignant disease later in life as well

Question 117

What are the anomalies of the midgut?

Answer 117

1. congenital omphalocele (intestinal or hepatic herniation into umbilical cord)
   
   • failure of midgut to return to abdominal cavity by week 10
2. Umbilical hernia
   
   • umbilicus doesn’t close making it easier to herniate after week 10
3. Gastroschisis
4. Nonrotation
5. Mixed rotation
6. Reversed rotation
   
   • reverse of second midgut rotation
   • can cause obstruction of transverse colon
7. Subhepatic cecum and appendix
   
   • adherence of cecum to liver
8. Mobile cecum
   
   • causes variations in position of the appendix
   • due to incomplete fixation of ascending colon
9. Midgut volvulus
10. Stenosis and atresia
11. Ileal (Meckel’s) Diverticulum

Question 118

What is the most common anomaly of the digestive tract?

Answer 118

Ileal (Meckel’s) diverticulum
When a remnant of yolk stalk remains as an outpouching of the ileum
Asymptomatic

Question 119

What is an omphalocele?

Answer 119

A birth defect in which infant’s intestine or other abdominal organs stick out of the belly button
A type of hernia
So you can see intestines through belly button

Question 120

What is gastroschisis?

Answer 120

A defect in ventral abdominal wall that results in extrusion of midgut structures WITHOUT involvement of the umbilical cord
Due to lateral folding of embryo during week four

Question 121

What are the key characteristics of nonrotation?

Answer 121

Called left-sided colon
Quite commom and asymptomatic if volvulus doesn’t occur
Happens when second midgut rotation (180 degrees) fails to occur
Large intestine on left
Small intestine on right

Question 122

What are the key characteristics of mixed rotation?

Answer 122

When midgut fails to complete final 90 degrees of rotation
Cecum becomes inferior to stomach
Can cause duodenal obstruction

Question 123

What are the key characteristics of stenosis and atresia of midgut?

Answer 123

Failure of recanalization
Necrosis and conversion to a fibrous cord due to lack of recanalization
Can also form two parallel lumens known as intestinal duplication

Question 124

What causes intestinal duplication?

Answer 124

Failure of recanalization

Formation of two parallel lumens

Question 125

What are the anomalies of the hindgut?

Answer 125

1. Congenital megacolon (Hirchsprung’s disease)
2. Imperforate anus and anorectal anomalies
3. Anorectal agenesis
4. Anal stenosis
5. Membranous atresia
   
   • anus is in normal position but sealed by membrane
6. Rectal atresia
   
   • anal canal and rectum are present but don’t connect
   • due to recanalization or defective blood supply

Question 126

What are the key characteristics of congenital megacolon?

Answer 126

Hirschsprung’s disease
Results as a failure of neural crest cells to migrate normally
No neural crest cells = no enteric ganglion cells
No peristalsis in colon = dilation
HINDGUT

Question 127

What are the key characteristics of anorectal agenesis

Answer 127

Rectum ends before reaching anal pit
Fistula usually connects rectum to bladder, urethra or vagina
Caused by defect in urogenital septum
Characterized by
	i. meconium in urine (males)
	ii. meconium in vagina

Question 128

What is meconium?

Answer 128

Dark green substance forming the first FECES of a newborn infant

Question 129

What is the Golosow and Grobstein experiment of 1962?

Answer 129

Pancreas development DEPENDS on the surround mesenchyme
If mesenchyme was there, pancreatic buds grew
Lack of mesenchyme = no pancreatic buds
This means that mesenchyme released regulatory signals
Mesenchym around midgut = midgut formation
Mesenchyme around foregut = foregut formation

Question 130

What is the mesenchyme inducing mechanism for hindgut and midgut?

Answer 130

Both have SHH expressed in gut endoderm
SHH leads to expression of Hox genes in mesenchyme
Hox genes then leads to differentiation

Question 131

What is situs inversus?

Answer 131

When there is a reversal in left-right symmetry (or asymmetry in the case since organs are asymmetrical to begin with)

Question 132

What is the significance of Nodal?

Answer 132

TGFbeta gene

Necessary for left-right patterning and morphogenesis of visceral organs

Question 133

What is significant about Kartagener’s Syndrome?

Answer 133

Situs inversus (reversal of asymmetry)
Failure of dynein function
Ciliary defect

Question 134

What is the siginificance of Pdx1?

Answer 134

Essential for pancreas development
Stands for pancreatic and duodenal homeobox
Expressed in dorsal and ventral bud regions of duodenum
SEEN ONLY in the MOUSE
Growth initiated but doesn’t progress

Question 135

Pdx1

Answer 135

Essential for pancreas growth
Located in duodenal regions where pancreatic ventral/dorsal buds develop
MOUSE

Question 136

What is IPF1?

Answer 136

Analog to pdx1
HUMANS
If you are missing this, you are APANCREATIC and you will get type 2 diabetes (type 1?)