0
F Cells (PP cells) are pancreatic polypeptide producing cells. The PP cells are mainly found in the Islets of Langerhans at the head of the pancreas. The pancreatic polypeptide hormone is expressed at times when glucose levels in the blood are low. This can be created from fasting, exercising, eating protein meals, or from being hypoglycemic (low blood sugar). The increase of somatostatin and glucose in the blood decrease the PP levels. Having too little PP hormones appears to stimulate appetite, lessens the ability to resist the temptation of food, and increases the chances of a person becoming overweight.
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What hormone do beta cells of the pancreatic islets produce?
the cells called islets of langerhans are inside the pancreas. there are 5 types of cellgs within the islets of langerhans. The alpha cells produce glucagon, the beta cells produce insulin, delta cells make somatostatin (a general inhibitory hormone), and the last two types of cells, PP cells and D1 cells, little is known about what they do. The Islet of Langerhans cells are most well-known for the production and secretion of insulin.
What Types of cells are in the pancreas?
The pancreas has several cell types. The pancreas forms these small pouches that are formed by acinar cells, which make the proteins and enzymes in pancreatic fluid. These pouches then lead into intercalated ducts. The first cells here are centroacinar cells, which secrete bicarbonate. The rest of the ducts are lined by duct cells that change the electrolytic composition of pancreatic fluid. The pancreas also contains Islets of Langerhan. Within these islets you can find beta cells(produce insulin), alpha cells(produce glucagon), delta cells(produce somatostatin), epsilon cells(produce ghrelin), and PP cells(produce pancreatic polypeptide). Hope that helps.
Produced by the islet cells of the pancreas?
Insulin is produced by the Islets of Langerhans in the pancreas.These are cells scattered throughout the pancreas, about a million of them in a healthy adult.Their are five different types of these cells.There are alpha cells which produce glucagon (it breaks glycogen down into blood sugar (glucose) when the blood sugar levels are low.Beta cells, which produce insulin (it aids the bodies cells in absorbing the blood glucose)Delta cells, which produce somatostatin, a tropic hormone (basically the off switch to the alpha and beta cells)PP Cells, Polypeptide cells of unknown importanceD1 cells, or Epsilon Cells, which produce ghrelin (the hormone that tells your brain it's time to eat.) It is the on switch where the hormone, leptin is the "I'm Hungry" off switch.
Why is the pancreas part of our body?
The part of the pancreas with endocrine function is made up of approximately a million cell clusters called islets of Langerhans. There are four main cell types in the islets. They are relatively difficult to distinguish using standard staining techniques, but they can be classified by their secretion: α cells secrete glucagon, β cells secrete insulin, δ cells secrete somatostatin, and PP cells secrete pancreatic polypeptide. The islets are a compact collection of endocrine cells arranged in clusters and cords and are crisscrossed by a dense network of capillaries. The capillaries of the islets are lined by layers of endocrine cells in direct contact with vessels, and most endocrine cells are in direct contact with blood vessels, by either cytoplasmic processes or by direct apposition. According to the volume The Body, by Alan E. Nourse, the islets are "busily manufacturing their hormone and generally disregarding the pancreatic cells all around them, as though they were located in some completely different part of the body."
What alleles for flower color could the sex cells carry?
it carry purple flower pp or Pp
What alleles for a flower color could the sex cells carry?
In pea plants, individuals that are Pp for the alleles that code for flower color will have purple flowers. What is the phenotype?
How does the pancreas assist in nutrition?
Your continued donations keep Wikipedia running!= Pancreas =Jump to: navigation, search{| ! style="BACKGROUND: dimgray; COLOR: #ffffff" colspan="2" | Pancreas |1: Head of pancreas2: Uncinate process of pancreas3: Pancreatic notch4: Body of pancreas5: Anterior surface of pancreas6: Inferior surface of pancreas7: Superior margin of pancreas8: Anterior margin of pancreas9: Inferior margin of pancreas10: Omental tuber11: Tail of pancreas12: Duodenum ! Gray's | subject #251 1199 ! Artery | inferior pancreaticoduodenal artery, superior pancreaticoduodenal artery, splenic artery ! Vein | pancreaticoduodenal veins, pancreatic veins ! Nerve | pancreatic plexus, celiac ganglia, vagus[1] ! Precursor | pancreatic buds ! MeSH | Pancreas ! Dorlands/Elsevier | Pancreas The pancreas is a gland organ in the digestive and endocrine system of vertebrates. It is both an endocrine gland producing several important hormones, including insulin, glucagon, and somatostatin, as well as an exocrine gland, secreting pancreatic juice containing digestive enzymes that pass to the small intestine. These enzymes help in the further breakdown of the carbohydrates, protein, and fat in the chyme. [hide]* 1 Histology * 2 Function ** 2.1 Endocrine ** 2.2 Exocrine ** 2.3 Regulation * 3 Diseases of the pancreas * 4 History * 5 Embryological development * 6 Additional images * 7 References Under a microscope, stained sections of the pancreas reveal two different types of parenchymal tissue.[2] Lightly staining clusters of cells are called islets of Langerhans, which produce hormones that underlie the endocrine functions of the pancreas. Darker staining cells form acini connected to ducts. Acinar cells belong to the exocrine pancreas and secrete digestive enzymes into the gut via a system of ducts. Structure AppearanceFunction Islets of Langerhans Lightly staining, large, spherical clusters Hormone production and secretion (endocrine pancreas) Pancreatic acini Darker staining, small, berry-like clusters Digestive enzyme production and secretion (exocrine pancreas) The pancreas is a dual-function gland, having features of both endocrine and exocrine glands. Main article: Endocrine pancreas The part of the pancreas with endocrine function is made up of approximately million[3] cell clusters called islets of Langerhans. There are four main cell types in the islets. They are relatively difficult to distinguish using standard staining techniques, but they can be classified by their secretion: α cells secrete glucagon, β cells secrete insulin, δ cells secrete somatostatin, and PP cells secrete pancreatic polypeptide.[4] The islets are a compact collection of endocrine cells arranged in clusters and cords and are crisscrossed by a dense network of capillaries. The capillaries of the islets are lined by layers of endocrine cells in direct contact with vessels, and most endocrine cells are in direct contact with blood vessels, by either cytoplasmic processes or by direct apposition. According to the volume The Body, by Alan E. Nourse,[5] the islets are "busily manufacturing their hormone and generally disregarding the pancreatic cells all around them, as though they were located in some completely different part of the body." Main article: Exocrine pancreas In contrast to the endocrine pancreas, which secretes hormones into the blood, the exocrine pancreas produces digestive enzymes and an alkaline fluid, and secretes them into the small intestine through a system of exocrine ducts in response to the small intestine hormones secretin and cholecystokinin. Digestive enzymes include trypsin, chymotrypsin, pancreatic lipase, and pancreatic amylase, and are produced and secreted by acinar cells of the exocrine pancreas. Specific cells that line the pancreatic ducts, called centroacinar cells, secrete a bicarbonate- and salt-rich solution into the small intestine.[6] The pancreas receives regulatory innervation via hormones in the blood and through the autonomic nervous system. These two inputs regulate the secretory activity of the pancreas. Sympathetic (adrenergic) Parasympathetic (muscarinic) α2: decreases secretion from beta cells, increases secretion from alpha cells M3[7] increases stimulation from alpha cells and beta cell Main article: Pancreatic disease Because the pancreas is a storage depot for digestive enzymes, injury to the pancreas is potentially very dangerous. A puncture of the pancreas generally requires prompt and experienced medical intervention. An incision into the pancreas is known as a pancreatotomy. The pancreas was first identified by Herophilus (335-280 BC), a Greek anatomist and surgeon. Only a few hundred years later, Ruphos, another Greek anatomist, gave the pancreas its name. The term "pancreas" is derived from the Greek pan, "all", and kreas, "flesh", probably referring to the organ's homogeneous appearance.[8] Schematic illustrating the development of the pancreas from a dorsal and a ventral bud. During maturation the ventral bud flips to the other side of the gut tube (arrow) where it typically fuses with the dorsal lobe. An additional ventral lobe which usually regress during development is omitted.The pancreas forms from the embryonic foregut and is therefore of endodermal origin. Pancreatic development begins the formation of a ventral and dorsal anlage (or buds). Each structure communicates with the foregut through a duct. The ventral pancreatic bud becomes the head and unciate process, and comes from the hepatic diverticulum. Differential rotation and fusion of the ventral and dorsal pancreatic buds results in the formation of the definitive pancreas.[9] As the duodenum rotates to the right, it carries with it the ventral pancreatic bud and common bile duct. Upon reaching its final destination, the ventral pancreatic bud fuses with the much larger dorsal pancreatic bud. At this point of fusion, the main ducts of the ventral and dorsal pancreatic buds fuse, forming the duct of Wirsung, the main pancreatic duct. Differentiation of cells of the pancreas proceeds through two different pathways, corresponding to the dual endocrine and exocrine functions of the pancreas. In progenitor cells of the exocrine pancreas, important molecules that induce differentiation include follistatin, fibroblast growth factors, and activation of the Notch receptor system.[9] Development of the exocrine acini progresses through three successive stages. These include the predifferentiated, protodifferentiated, and differentiated stages, which correspond to undetectable, low, and high levels of digestive enzyme activity, respectively. Progenitor cells of the endocrine pancreas arise from cells of the protodifferentiated stage of the exocrine pancreas.[9] Under the influence of neurogenin-3 and Isl-1, but in the absence of Notch receptor signaling, these cells differentiate to form two lines of committed endocrine precursor cells. The first line, under the direction of Pax-0, forms α- and γ- cells, which produce the peptides glucagon and pancreatic polypeptide, respectively. The second line, influenced by Pax-6, produces β- and δ-cells, which secrete insulin and somatostatin, respectively. Insulin and glucagon can be detected in the fetal circulation by the fourth or fifth month of fetal development.[9]Accessory digestive system.Digestive organs.The celiac artery and its branches; the stomach has been raised and the peritoneum removed.Lymphatics of stomach, etc. The stomach has been turned upward.Transverse section through the middle of the first lumbar vertebra, showing the relations of the pancreas.The duodenum and pancreas.The pancreatic duct.Pancreas of a human embryo of five weeks.Pancreas of a human embryo at end of sixth week.Front of abdomen, showing surface markings for duodenum, pancreas, and kidneys.# ^ Physiology at MCG 6/6ch2/s6ch2_30 # ^Histology at BU 10404loa # ^ Hellman B, Gylfe E, Grapengiesser E, Dansk H, Salehi A (2007). "[Insulin oscillations--clinically important rhythm. Anti-diabetics should increase the pulsative component of the insulin release]" (in Swedish). Lakartidningen 104 (32-33): 2236-9. PMID 17822201. # ^ BRS physiology 4th edition ,page 255-256, Linda S. Constanzo, Lippincott publishing # ^ The Body, by Alan E. Nourse, in the Time-Life Science Library Series (op. cit., p. 171.) # ^ Maton, Anthea; Jean Hopkins, Charles William McLaughlin, Susan Johnson, Maryanna Quon Warner, David LaHart, Jill D. Wright (1993). Human Biology and Health. Englewood Cliffs, New Jersey, USA: Prentice Hall. ISBN 0-13-981176-1. OCLC 32308337. # ^ Verspohl EJ, Tacke R, Mutschler E, Lambrecht G (1990). "Muscarinic receptor subtypes in rat pancreatic islets: binding and functional studies". Eur. J. Pharmacol. 178 (3): 303-11. doi:10.1016/0014-2999(90)90109-J. PMID 2187704. # ^ Harper, Douglas. "Pancreas". Online Etymology Dictionary. http://www.etymonline.com/index.php?term=pancreas. Retrieved on 2007-04-04. # ^ a b cd Carlson, Bruce M. (2004). Human embryology and developmental biology. St. Louis: Mosby. pp. 372-4. ISBN 0-323-01487-9. ! style="BACKGROUND: #ffd700" colspan="2" | [show]v • d • eAnatomy of torso, digestive system: accessory digestive glands | Liverby region: Left lobe (Caudate lobe, Quadrate lobe) • Right lobe • Transverse fissure of liver • Bare area of the liverby function: Fibrous capsule of Glisson • Hepatocyte • Space of Disse • Space of Mall • Kupffer cell • Liver sinusoid • Ito cell • Hepatic lobuleBiliary tractBile ductsintrahepatic: Bile canaliculus • Canals of Hering • Interlobular bile ducts • Intrahepatic bile ducts • Left and Right hepatic ductsextrahepatic: Common hepatic duct • Cystic duct • Common bile ductGallbladderby region: Body • Fundus • NeckPancreasby region: Tail • Body • Neck • Head • Uncinate process by function: Islets of Langerhans • Exocrine pancreas ducts: Pancreatic duct • Accessory pancreatic ductCommon Hepatopancreatic ampulla • Sphincter of Oddi! style="BACKGROUND: #ffd700" colspan="2" | [show]v • d • eEndocrine system > Pancreas - Islets of Langerhans | A/B alpha cell (glucagon) • beta cell (insulin)Other delta cell (somatostatin) • PP cell (pancreatic polypeptide) • epsilon cell (ghrelin)* Pancreas entry in Britannica Retrieved from "http://en.wikipedia.org/wiki/Pancreas" |}Views * Article * Discussion * Edit this page * HistoryPersonal tools * Log in / create accountNavigation * Main page * Contents * Featured content * Current events * Random articleSearchInteraction * About Wikipedia * Community portal * Recent changes * Contact Wikipedia * Donate to Wikipedia * HelpToolbox * What links here * Related changes * Upload file * Special pages * Printable version * Permanent link * Cite this pageLanguages * Afrikaans * العربية * বাংলা * Bosanski * Български * Català * Česky * Dansk * Deutsch * Eesti * Ελληνικά * Español * Esperanto * Euskara * فارسی * Français * Galego * 한국어 * Hrvatski * Bahasa Indonesia * Íslenska * Italiano * עברית * Basa Jawa * Kurdî / كوردی * Latina * Latviešu * Lietuvių * Magyar * Македонски * Nederlands * 日本語 * ‪Norsk (bokmål)‬ * ‪Norsk (nynorsk)‬ * Polski * Português * Română * Runa Simi * Русский * Shqip * Sicilianu * Simple English * Slovenčina * Slovenščina * Soomaaliga * Српски / Srpski * Suomi * Svenska * தமிழ் * తెలుగు * Tiếng Việt * Türkçe * Українська * ייִדישYour continued donations keep Wikipedia running!= Pancreas =Jump to: navigation, search{| ! style="BACKGROUND: dimgray; COLOR: #ffffff" colspan="2" | Pancreas |1: Head of pancreas2: Uncinate process of pancreas3: Pancreatic notch4: Body of pancreas5: Anterior surface of pancreas6: Inferior surface of pancreas7: Superior margin of pancreas8: Anterior margin of pancreas9: Inferior margin of pancreas10: Omental tuber11: Tail of pancreas12: Duodenum ! Gray's | subject #251 1199 ! Artery | inferior pancreaticoduodenal artery, superior pancreaticoduodenal artery, splenic artery ! Vein | pancreaticoduodenal veins, pancreatic veins ! Nerve | pancreatic plexus, celiac ganglia, vagus[1] ! Precursor | pancreatic buds ! MeSH | Pancreas ! Dorlands/Elsevier | Pancreas The pancreas is a gland organ in the digestive and endocrine system of vertebrates. It is both an endocrine gland producing several important hormones, including insulin, glucagon, and somatostatin, as well as an exocrine gland, secreting pancreatic juice containing digestive enzymes that pass to the small intestine. These enzymes help in the further breakdown of the carbohydrates, protein, and fat in the chyme. [hide]** 1 Histology ** 2 Function *** 2.1 Endocrine *** 2.2 Exocrine *** 2.3 Regulation ** 3 Diseases of the pancreas ** 4 History ** 5 Embryological development ** 6 Additional images ** 7 References Under a microscope, stained sections of the pancreas reveal two different types of parenchymal tissue.[2] Lightly staining clusters of cells are called islets of Langerhans, which produce hormones that underlie the endocrine functions of the pancreas. Darker staining cells form acini connected to ducts. Acinar cells belong to the exocrine pancreas and secrete digestive enzymes into the gut via a system of ducts. Structure AppearanceFunction Islets of Langerhans Lightly staining, large, spherical clusters Hormone production and secretion (endocrine pancreas) Pancreatic acini Darker staining, small, berry-like clusters Digestive enzyme production and secretion (exocrine pancreas) The pancreas is a dual-function gland, having features of both endocrine and exocrine glands. Main article: Endocrine pancreas The part of the pancreas with endocrine function is made up of approximately million[3] cell clusters called islets of Langerhans. There are four main cell types in the islets. They are relatively difficult to distinguish using standard staining techniques, but they can be classified by their secretion: α cells secrete glucagon, β cells secrete insulin, δ cells secrete somatostatin, and PP cells secrete pancreatic polypeptide.[4] The islets are a compact collection of endocrine cells arranged in clusters and cords and are crisscrossed by a dense network of capillaries. The capillaries of the islets are lined by layers of endocrine cells in direct contact with vessels, and most endocrine cells are in direct contact with blood vessels, by either cytoplasmic processes or by direct apposition. According to the volume The Body, by Alan E. Nourse,[5] the islets are "busily manufacturing their hormone and generally disregarding the pancreatic cells all around them, as though they were located in some completely different part of the body." Main article: Exocrine pancreas In contrast to the endocrine pancreas, which secretes hormones into the blood, the exocrine pancreas produces digestive enzymes and an alkaline fluid, and secretes them into the small intestine through a system of exocrine ducts in response to the small intestine hormones secretin and cholecystokinin. Digestive enzymes include trypsin, chymotrypsin, pancreatic lipase, and pancreatic amylase, and are produced and secreted by acinar cells of the exocrine pancreas. Specific cells that line the pancreatic ducts, called centroacinar cells, secrete a bicarbonate- and salt-rich solution into the small intestine.[6] The pancreas receives regulatory innervation via hormones in the blood and through the autonomic nervous system. These two inputs regulate the secretory activity of the pancreas. Sympathetic (adrenergic) Parasympathetic (muscarinic) α2: decreases secretion from beta cells, increases secretion from alpha cells M3[7] increases stimulation from alpha cells and beta cell Main article: Pancreatic disease Because the pancreas is a storage depot for digestive enzymes, injury to the pancreas is potentially very dangerous. A puncture of the pancreas generally requires prompt and experienced medical intervention. An incision into the pancreas is known as a pancreatotomy. The pancreas was first identified by Herophilus (335-280 BC), a Greek anatomist and surgeon. Only a few hundred years later, Ruphos, another Greek anatomist, gave the pancreas its name. The term "pancreas" is derived from the Greek pan, "all", and kreas, "flesh", probably referring to the organ's homogeneous appearance.[8] Schematic illustrating the development of the pancreas from a dorsal and a ventral bud. During maturation the ventral bud flips to the other side of the gut tube (arrow) where it typically fuses with the dorsal lobe. An additional ventral lobe which usually regress during development is omitted.The pancreas forms from the embryonic foregut and is therefore of endodermal origin. Pancreatic development begins the formation of a ventral and dorsal anlage (or buds). Each structure communicates with the foregut through a duct. The ventral pancreatic bud becomes the head and unciate process, and comes from the hepatic diverticulum. Differential rotation and fusion of the ventral and dorsal pancreatic buds results in the formation of the definitive pancreas.[9] As the duodenum rotates to the right, it carries with it the ventral pancreatic bud and common bile duct. Upon reaching its final destination, the ventral pancreatic bud fuses with the much larger dorsal pancreatic bud. At this point of fusion, the main ducts of the ventral and dorsal pancreatic buds fuse, forming the duct of Wirsung, the main pancreatic duct. Differentiation of cells of the pancreas proceeds through two different pathways, corresponding to the dual endocrine and exocrine functions of the pancreas. In progenitor cells of the exocrine pancreas, important molecules that induce differentiation include follistatin, fibroblast growth factors, and activation of the Notch receptor system.[9] Development of the exocrine acini progresses through three successive stages. These include the predifferentiated, protodifferentiated, and differentiated stages, which correspond to undetectable, low, and high levels of digestive enzyme activity, respectively. Progenitor cells of the endocrine pancreas arise from cells of the protodifferentiated stage of the exocrine pancreas.[9] Under the influence of neurogenin-3 and Isl-1, but in the absence of Notch receptor signaling, these cells differentiate to form two lines of committed endocrine precursor cells. The first line, under the direction of Pax-0, forms α- and γ- cells, which produce the peptides glucagon and pancreatic polypeptide, respectively. The second line, influenced by Pax-6, produces β- and δ-cells, which secrete insulin and somatostatin, respectively. Insulin and glucagon can be detected in the fetal circulation by the fourth or fifth month of fetal development.[9]Accessory digestive system.Digestive organs.The celiac artery and its branches; the stomach has been raised and the peritoneum removed.Lymphatics of stomach, etc. The stomach has been turned upward.Transverse section through the middle of the first lumbar vertebra, showing the relations of the pancreas.The duodenum and pancreas.The pancreatic duct.Pancreas of a human embryo of five weeks.Pancreas of a human embryo at end of sixth week.Front of abdomen, showing surface markings for duodenum, pancreas, and kidneys.*# ^ Physiology at MCG 6/6ch2/s6ch2_30 *# ^Histology at BU 10404loa *# ^ Hellman B, Gylfe E, Grapengiesser E, Dansk H, Salehi A (2007). "[Insulin oscillations--clinically important rhythm. Anti-diabetics should increase the pulsative component of the insulin release]" (in Swedish). Lakartidningen 104 (32-33): 2236-9. PMID 17822201. *# ^ BRS physiology 4th edition ,page 255-256, Linda S. Constanzo, Lippincott publishing *# ^ The Body, by Alan E. Nourse, in the Time-Life Science Library Series (op. cit., p. 171.) *# ^ Maton, Anthea; Jean Hopkins, Charles William McLaughlin, Susan Johnson, Maryanna Quon Warner, David LaHart, Jill D. Wright (1993). Human Biology and Health. Englewood Cliffs, New Jersey, USA: Prentice Hall. ISBN 0-13-981176-1. OCLC 32308337. *# ^ Verspohl EJ, Tacke R, Mutschler E, Lambrecht G (1990). "Muscarinic receptor subtypes in rat pancreatic islets: binding and functional studies". Eur. J. Pharmacol. 178 (3): 303-11. doi:10.1016/0014-2999(90)90109-J. PMID 2187704. *# ^ Harper, Douglas. "Pancreas". Online Etymology Dictionary. http://www.etymonline.com/index.php?term=pancreas. Retrieved on 2007-04-04. *# ^ a b cd Carlson, Bruce M. (2004). Human embryology and developmental biology. St. Louis: Mosby. pp. 372-4. ISBN 0-323-01487-9. ! style="BACKGROUND: #ffd700" colspan="2" | [show]v • d • eAnatomy of torso, digestive system: accessory digestive glands | Liverby region: Left lobe (Caudate lobe, Quadrate lobe) • Right lobe • Transverse fissure of liver • Bare area of the liverby function: Fibrous capsule of Glisson • Hepatocyte • Space of Disse • Space of Mall • Kupffer cell • Liver sinusoid • Ito cell • Hepatic lobuleBiliary tractBile ductsintrahepatic: Bile canaliculus • Canals of Hering • Interlobular bile ducts • Intrahepatic bile ducts • Left and Right hepatic ductsextrahepatic: Common hepatic duct • Cystic duct • Common bile ductGallbladderby region: Body • Fundus • NeckPancreasby region: Tail • Body • Neck • Head • Uncinate process by function: Islets of Langerhans • Exocrine pancreas ducts: Pancreatic duct • Accessory pancreatic ductCommon Hepatopancreatic ampulla • Sphincter of Oddi! style="BACKGROUND: #ffd700" colspan="2" | [show]v • d • eEndocrine system > Pancreas - Islets of Langerhans | A/B alpha cell (glucagon) • beta cell (insulin)Other delta cell (somatostatin) • PP cell (pancreatic polypeptide) • epsilon cell (ghrelin)** Pancreas entry in BritannicaRetrieved from "http://en.wikipedia.org/wiki/Pancreas" |}Views ** Article ** Discussion ** Edit this page ** HistoryPersonal tools ** Log in / create accountNavigation ** Main page ** Contents ** Featured content ** Current events ** Random articleSearchInteraction ** About Wikipedia ** Community portal ** Recent changes ** Contact Wikipedia ** Donate to Wikipedia ** HelpToolbox ** What links here ** Related changes ** Upload file ** Special pages ** Printable version ** Permanent link ** Cite this pageLanguages ** Afrikaans ** العربية ** বাংলা ** Bosanski ** Български ** Català ** Česky ** Dansk ** Deutsch ** Eesti ** Ελληνικά ** Español ** Esperanto ** Euskara ** فارسی ** Français ** Galego ** 한국어 ** Hrvatski ** Bahasa Indonesia ** Íslenska ** Italiano ** עברית ** Basa Jawa ** Kurdî / كوردی ** Latina ** Latviešu ** Lietuvių ** Magyar ** Македонски ** Nederlands ** 日本語 ** ‪Norsk (bokmål)‬ ** ‪Norsk (nynorsk)‬ ** Polski ** Português ** Română ** Runa Simi ** Русский ** Shqip ** Sicilianu ** Simple English ** Slovenčina ** Slovenščina ** Soomaaliga ** Српски / Srpski ** Suomi ** Svenska ** தமிழ் ** తెలుగు ** Tiếng Việt ** Türkçe ** Українська ** ייִדיש ** 中文for details.)Wikipedia® is a registered trademark of the Wikimedia Foundation, Inc., a U.S. registered 501(c)(3) tax-deductible nonprofit charity.** *** This page was last modified on 6 May 2009, at 23:51 (UTC). *** All text is available under the terms of the GNU Free Documentation License. (See Copyrights ** Privacy policy ** About Wikipedia ** Disclaimers* 中文* This page was last modified on 6 May 2009, at 23:51 (UTC). * All text is available under the terms of the GNU Free Documentation License. (See Copyrights for details.)Wikipedia® is a registered trademark of the Wikimedia Foundation, Inc., a U.S. registered 501(c)(3) tax-deductible nonprofit charity.* Privacy policy * About Wikipedia * Disclaimers
What is a reservoir for lymphocytes that can be transformed into specific disease fighting cells?
my pp
What are two occupations that match the keyword doctors?
pp pp pp pp pp pp pp pp pp pp pp pp
What would be the phenotype PP and pp or all Pp or all PP or all pp?
Yes.
What are the results of a cross between parents with genotypes Pp and pp?
Pp 50% and pp 50% .
What genotype is Pp?
pp
