Module 9: The Endocrine System PDF

Summary

This document provides an overview of the endocrine system, including animal hormones, intercellular communication, and various signaling mechanisms such as endocrine, paracrine, and autocrine signaling. It also discusses the different classes of hormones and their effects.

Full Transcript

‭MODULE 9: THE ENDOCRINE SYSTEM‬ ‭ aracrine‬ ‭&‬ ‭Autocrine‬ ‭Signaling:‬ ‭It‬ ‭involves‬ ‭local‬
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‭regulators‬‭.‬ ‭These‬ ‭are‬ ‭molecules‬‭that‬‭act‬‭over‬‭short‬
‭ANIMAL HORMONES‬ ‭distances‬‭reaching target cells solely by diffusion.‬
T‭ hese‬ ‭are‬ ‭chemical‬ ‭signals‬ ‭that‬ ‭are‬ ‭secreted‬ ‭into‬
‭the‬‭circulatory‬‭system‬‭and‬‭communicate‬‭regulatory‬ ‭ aracrine‬ ‭Signaling:‬ ‭Target‬ ‭cells‬ ‭lie‬ ‭near‬ ‭the‬
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‭messages within the body.‬ ‭secreting cells.‬

I‭t‬ ‭can‬ ‭reach‬ ‭all‬ ‭parts‬ ‭of‬ ‭the‬ ‭body,‬ ‭but‬ ‭only‬ ‭target‬
‭cells‬ ‭that‬ ‭have‬ ‭receptors‬ ‭for‬ ‭that‬ ‭hormone.‬ ‭It‬ ‭is‬
‭controlled by the Endocrine system.‬

T‭ he‬‭nervous‬‭and‬‭endocrine‬‭system‬‭often‬‭overlap‬‭in‬ ‭ utocrine‬ ‭Signaling:‬ ‭Target‬ ‭cell‬ ‭is‬ ‭also‬ ‭the‬
A
‭function.‬ ‭secreting cell.‬

S‭ ignaling‬ ‭of‬ ‭neurons‬ ‭influences‬ ‭the‬ ‭release‬ ‭of‬
‭hormones.‬

I‭NTERCELLULAR COMMUNICATION‬
‭As‬ ‭the‬ ‭way‬ ‭that‬ ‭signals‬ ‭are‬ ‭transmitted‬ ‭between‬ ‭ oth‬‭plays‬‭roles‬‭in‬‭processes‬‭such‬‭as‬‭blood‬‭pressure‬
B
‭animal cells.‬ ‭regulation,‬ ‭nervous‬ ‭system‬ ‭function,‬ ‭and‬
‭reproduction.‬
‭ nimals‬ ‭use‬ ‭chemical‬ ‭signals‬ ‭to‬ ‭communicate‬ ‭in‬
A
‭diverse ways:‬ L‭ ocal‬ ‭regulators‬ ‭that‬ ‭mediate‬ ‭such‬ ‭signaling‬
‭‬ ‭Endocrine Signaling‬ ‭include the prostaglandins.‬
‭‬ ‭Paracrine and Autocrine Signaling‬ ‭‬ ‭Prostaglandins‬‭:‬ ‭These‬ ‭function‬ ‭in‬
‭‬ ‭Synaptic & Neuroendocrine Signaling‬ ‭reproduction,‬ ‭the‬ ‭immune‬ ‭system,‬ ‭blood‬
‭clotting, and pain response.‬
‭ ndocrine‬ ‭Signaling:‬ ‭Hormones‬ ‭secreted‬ ‭into‬
E
‭extracellular‬ ‭fluids‬ ‭by‬ ‭endocrine‬ ‭cells‬ ‭reach‬ ‭their‬ ‭Synaptic & Neuroendocrine Signaling:‬
‭targets‬‭via the bloodstream‬‭.‬
‭1.‬ ‭Hormones‬ ‭will‬ ‭diffuse‬ ‭into‬ ‭and‬ ‭out‬ ‭of‬ ‭the‬ ‭ ynaptic‬ ‭Signaling:‬ ‭Neurons‬ ‭form‬ ‭specialized‬
S
‭blood vessels.‬ ‭junctions with target cells called‬‭synapses‬‭.‬
‭2.‬ ‭Then‬ ‭it‬ ‭will‬ ‭bind‬ ‭to‬ ‭their‬ ‭target‬ ‭cells‬ ‭‬ ‭Neurotransmitters‬‭:‬ ‭Molecules‬ ‭secreted‬
‭(determined by their receptors).‬ ‭by‬‭neurons‬‭at‬‭synapses‬‭that‬‭diffuse‬‭short‬
‭distances‬ ‭and‬ ‭bind‬ ‭to‬ ‭receptors‬ ‭on‬
‭ ndocrine‬
E ‭signaling‬ ‭maintains‬ ‭homeostasis,‬ ‭target cells.‬
‭mediates‬‭responses‬‭to‬‭stimuli,‬‭regulates‬‭growth,‬‭and‬
‭development.‬ ‭It‬ ‭also‬ ‭involves‬ ‭long‬ ‭distances‬
‭between‬ ‭the‬ ‭endocrine‬ ‭cells‬ ‭and‬ ‭its‬ ‭target‬ ‭cells‬
‭(since it can travel via the bloodstream).‬

‭ euroendocrine‬
N ‭Signaling:‬ ‭Specialized‬
‭neurosecretory‬ ‭cells‬ ‭secrete‬ ‭molecules‬ ‭called‬
‭neurohormones‬‭that‬‭travel‬‭to‬‭target‬‭cells‬‭via‬‭the‬
‭bloodstream.‬
‭1‬
 ‭CELLULAR RESPONSE PATHWAYS‬
T‭ hey‬ ‭bind‬ ‭to‬ ‭receptors‬‭in‬‭the‬‭cytoplasm‬‭or‬‭nucleus‬
‭of the target cells.‬

‭ ater-soluble‬ ‭Hormones:‬ ‭It‬ ‭is‬ ‭secreted‬ ‭by‬
W
‭exocytosis.‬ ‭It‬ ‭travels‬ ‭freely‬ ‭in‬ ‭the‬ ‭bloodstream‬ ‭and‬
‭binds to cell-surface receptors.‬
‭EXTRACELLULAR COMMUNICATION‬
L‭ ipid-soluble‬ ‭Hormones:‬ ‭It‬ ‭diffuses‬ ‭across‬ ‭cell‬
‭membranes.‬ ‭It‬‭travels‬‭in‬‭the‬‭bloodstream‬‭bound‬‭to‬
‭ ignaling‬ ‭by‬ ‭Pheromones:‬ ‭Chemicals‬ ‭that‬ ‭are‬
S
‭transport‬ ‭proteins‬ ‭and‬ ‭diffuses‬ ‭through‬ ‭the‬
‭released‬‭into‬‭the‬‭environment‬‭used‬‭by‬‭members‬‭of‬
‭membrane of target cells.‬
‭an animal species‬‭to communicate.‬

I‭t‬ ‭serves‬ ‭many‬ ‭functions,‬ ‭including‬ ‭marking‬ ‭trails‬
‭leading‬ ‭to‬ ‭food,‬ ‭defining‬ ‭territories,‬ ‭warning‬ ‭of‬
‭predators, and attracting potential mates (Ex: Ants)‬

‭CLASSES OF LOCAL REGULATORS‬

L‭ ocal‬ ‭Regulator:‬ ‭Prostaglandins‬ ‭are‬ ‭modified‬ ‭fatty‬
‭acids.‬ ‭The‬ ‭others‬ ‭are‬ ‭polypeptides‬ ‭and‬ ‭some‬ ‭are‬
‭gasses.‬

‭ itric‬ ‭Oxide‬ ‭(NO):‬ ‭This‬‭is‬‭a‬‭gas‬‭that‬‭functions‬‭in‬‭the‬
N
‭body‬ ‭as‬ ‭both‬ ‭a‬ ‭local‬ ‭regulator‬ ‭and‬
‭neurotransmitter‬‭.‬
‭‬ ‭When‬ ‭the‬ ‭level‬‭of‬‭oxygen‬‭in‬‭blood‬‭falls,‬‭NO‬
‭activates‬ ‭an‬ ‭enzyme‬ ‭that‬ ‭results‬ ‭in‬
‭vasodilation,‬ ‭increasing‬ ‭blood‬ ‭flow‬ ‭to‬ ‭the‬
‭tissues.‬

‭CLASSES OF HORMONES‬
T‭ here‬ ‭are‬ ‭three‬ ‭major‬ ‭classes:‬ ‭(1)‬‭Polypeptides,‬‭(2)‬
‭Steroids, and (3) Amines.‬

‭Polypeptides & Amines:‬‭Both are water-soluble‬
‭‬ ‭Polypeptides: Insulin‬
‭‬ ‭Amines: NH‬‭2‬ ‭chemical, Epinephrine‬

‭ pinephrine‬‭&‬‭Cortisol‬‭are‬‭normally‬‭for‬‭fight-or-flight.‬
E
‭Insulin is for when glucose levels are high.‬

‭ teroids:‬ ‭Also‬ ‭largely‬ ‭nonpolar‬ ‭hormones‬ ‭are‬
S
‭characterized as lipid-soluble.‬

‭2‬
 ‭MULTIPLE EFFECTS OF HORMONES‬ ‭ xocrine‬ ‭Glands:‬ ‭These‬ ‭have‬ ‭ducts‬ ‭to‬ ‭carry‬
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T‭ he‬ ‭same‬ ‭hormone‬ ‭may‬ ‭have‬ ‭different‬ ‭effects‬ ‭on‬ ‭secreted‬ ‭substances‬ ‭onto‬ ‭body‬ ‭surfaces‬ ‭or‬ ‭into‬
‭the target cells that have:‬ ‭body cavities. These include the salivary glands.‬
‭‬ ‭Different receptors for the hormone‬
‭‬ ‭Different signal transduction pathways‬ ‭ IMPLE HORMONE PATHWAYS‬
S
‭Hormones‬‭are:‬
‭ pinephrine:‬ ‭It‬ ‭increases‬ ‭blood‬ ‭flow‬ ‭to‬ ‭skeletal‬
E ‭‬ ‭Released from an endocrine cell‬
‭muscles‬ ‭(beta-receptor)‬‭.‬ ‭However,‬ ‭it‬ ‭decreases‬ ‭‬ ‭Travel through the bloodstream, and‬
‭blood flow to the digestive tract (alpha-receptor)‬‭.‬ ‭‬ ‭Interact‬ ‭with‬ ‭specific‬ ‭receptors‬ ‭within‬ ‭a‬
‭target‬ ‭cell‬ ‭to‬ ‭cause‬ ‭a‬ ‭physiological‬
‭response‬

‭ xample:‬ ‭The‬ ‭release‬ ‭of‬ ‭acidic‬ ‭contents‬ ‭of‬ ‭the‬
E
‭stomach‬ ‭into‬ ‭the‬ ‭duodenum‬ ‭stimulates‬ ‭endocrine‬
‭cells there to secrete secretin.‬
‭‬ ‭This‬ ‭causes‬ ‭target‬ ‭cells‬ ‭in‬ ‭the‬ ‭pancreas,‬ ‭a‬
‭gland‬‭behind‬‭the‬‭stomach‬‭to‬‭raise‬‭the‬‭pH‬‭in‬
‭the duodenum.‬

‭ENDOCRINE TISSUES & ORGANS‬

I‭t‬ ‭utilizes‬ ‭a‬ ‭negative‬ ‭feedback‬ ‭loop‬ ‭as‬ ‭it‬ ‭inhibits‬ ‭a‬
‭response‬ ‭by‬ ‭reducing‬ ‭the‬ ‭initial‬ ‭stimulus,‬ ‭thus‬
‭preventing excessive pathway activity.‬

‭ ndocrine‬‭Glands:‬‭These‬‭are‬‭ductless‬‭organs.‬‭These‬
E
‭include:‬‭thyroid‬‭and‬‭parathyroid‬‭glands,‬‭testes,‬‭and‬
‭ovaries.‬

‭3‬
 ‭SIMPLE NEUROENDOCRINE PATHWAYS‬ ‭ENDOCRINE SYSTEM IN INVERTEBRATES‬
S‭ timulus‬ ‭is‬ ‭received‬ ‭by‬ ‭a‬ ‭sensory‬ ‭neuron,‬ ‭which‬
‭stimulates a neurosecretory cell‬‭.‬ ‭ rothoracicotropic‬ ‭Hormone‬ ‭(PTTH):‬ ‭It‬ ‭is‬ ‭produced‬
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‭by‬ ‭neurosecretory‬ ‭cells‬ ‭in‬ ‭the‬ ‭larval‬ ‭brain.‬ ‭It‬ ‭also‬
‭ eurosecretory‬ ‭cell‬ ‭secretes‬ ‭a‬ ‭neurohormone,‬
N ‭controls the molting of larva.‬
‭which‬‭enters‬‭the‬‭bloodstream‬‭and‬‭travels‬‭to‬‭target‬
‭cells.‬ I‭n‬‭the‬‭prothoracic‬‭gland,‬‭PTTH‬‭directs‬‭the‬‭release‬‭of‬
‭ecdysteroid‬‭.‬
‭ xample:‬ ‭The‬ ‭Suckling‬ ‭of‬ ‭an‬ ‭infant‬ ‭stimulates‬
E
‭nervous signals that reach the hypothalamus.‬ ‭ etamorphosis‬
M
‭‬ ‭Nerve‬ ‭impulses‬ ‭from‬ ‭hypothalamus‬ ‭trigger‬ ‭Bursts‬ ‭of‬ ‭ecdysteroid‬ ‭trigger‬ ‭each‬ ‭successive‬ ‭molt‬
‭release of oxytocin from the pituitary gland.‬ ‭as well as metamorphosis.‬
‭‬ ‭It causes mammary glands to secrete milk‬
‭ etamorphosis‬ ‭is‬ ‭not‬ ‭triggered‬ ‭until‬ ‭the‬ ‭level‬ ‭of‬
M
‭another hormone,‬‭Juvenile Hormone (JH)‬‭, drops.‬

‭ NDOCRINE SYSTEM IN VERTEBRATES‬
E
‭The‬ ‭hypothalamus‬ ‭receives‬ ‭information‬ ‭from‬ ‭the‬
‭nervous‬ ‭system‬ ‭and‬ ‭initiates‬ ‭responses‬ ‭through‬‭the‬
‭endocrine system.‬

I‭t‬ ‭utilizes‬‭a‬‭positive‬‭feedback‬‭loop‬‭as‬‭it‬‭reinforces‬‭a‬
‭stimulus to produce an even greater response.‬

I‭n‬ ‭mammals,‬ ‭oxytocin‬ ‭causes‬ ‭the‬ ‭release‬ ‭of‬ ‭milk,‬
‭causing‬ ‭greater‬ ‭suckling‬ ‭by‬ ‭offspring,‬ ‭which‬
‭stimulates the release of more oxytocin.‬

‭4‬
‭ ttached‬ ‭to‬ ‭the‬ h
A ‭ ypothalamus‬ ‭is‬ ‭the‬ ‭pituitary‬ ‭ nterior Pituitary Hormones‬
A
‭gland‬‭,‬ ‭composed‬ ‭of‬ ‭the‬ ‭posterior‬ ‭pituitary‬ ‭and‬ ‭The‬‭hypothalamus‬‭controls‬‭the‬‭hormone‬‭production‬
‭anterior pituitary.‬ ‭in‬ ‭the‬ ‭anterior‬ ‭pituitary‬ ‭by‬ ‭releasing‬ ‭and‬ ‭inhibiting‬
‭hormones.‬
‭ osterior‬ ‭Pituitary:‬ ‭This‬ ‭stores‬ ‭and‬ ‭secretes‬
P
‭hormones that are made in the hypothalamus.‬ ‭ rolactin-releasing‬ ‭Hormone:‬ ‭It‬ ‭is‬ ‭from‬ ‭the‬
P
‭hypothalamus‬‭and‬‭it‬‭stimulates‬‭the‬‭anterior‬‭pituitary‬
‭ nterior‬ ‭Pituitary:‬ ‭This‬ ‭makes‬ ‭and‬ ‭releases‬
A ‭to‬ ‭secrete‬ ‭prolactin‬‭,‬ ‭which‬ ‭has‬ ‭a‬ ‭role‬ ‭in‬ ‭milk‬
‭hormones‬ ‭under‬ ‭regulation‬ ‭of‬ ‭the‬ ‭production‬‭.‬
‭hypothalamus.‬

‭ osterior Pituitary Hormones‬
P
‭Neurosecretory‬‭cells‬‭of‬‭the‬‭hypothalamus‬‭synthesize‬
‭Hormone‬ ‭Target‬
‭the two posterior pituitary hormones.‬
‭FSH & LH‬ ‭Testes, Ovaries‬
‭ ntidiuretic‬ ‭Hormone‬‭(ADH):‬‭It‬‭regulates‬‭physiology‬
A
‭and‬ ‭behavior.‬ ‭It‬ ‭also‬ ‭increases‬ ‭water‬ ‭retention.‬ ‭It‬ ‭TSH‬ ‭Thyroid‬
‭targets the Kidney tubules.‬
‭ACTH‬ ‭Adrenal cortex‬
‭ xytocin:‬ ‭It‬ ‭regulates‬ ‭milk‬ s‭ ecretion‬ b
O ‭ y‬ ‭the‬
‭mammary‬ ‭glands.‬ ‭It‬ ‭also‬ ‭regulates‬ u ‭ terine‬ ‭Prolactin‬ ‭Mammary glands‬
‭contraction during birthing‬‭.‬
‭MSH‬ ‭Melanocytes‬

‭GH‬ ‭Liver, bones, other tissues‬

‭ENDOCRINE GLAND: HORMONES & FUNCTIONS‬

‭ ineal Gland‬
P
‭Melatonin:‬ ‭Participates‬ ‭in‬ ‭regulation‬ ‭of‬ ‭biological‬
‭rhythms.‬

‭5‬
‭Hypothalamus‬ ‭ drenal Gland‬
A
‭ xytocin‬ ‭&‬ ‭Vasopressin:‬ ‭These‬ ‭are‬ ‭hormones‬
O ‭Adrenal Medulla:‬
‭released from the posterior pituitary.‬
‭ pinephrine‬ ‭&‬ ‭Norepinephrine:‬ ‭Raises‬ ‭blood‬
E
‭ eleasing‬‭&‬‭Inhibiting‬‭Hormones:‬‭These‬‭regulate‬‭the‬
R ‭glucose‬ ‭level;‬ ‭increase‬ ‭metabolic‬ ‭activities,‬
‭anterior pituitary.‬ ‭constrict certain blood vessels‬

‭ ituitary Gland‬
P ‭Adrenal Cortex:‬
‭Anterior Pituitary:‬
‭Glucocorticoids:‬‭Raise blood glucose level‬
F‭ ollicle-stimulating‬ ‭Hormone‬ ‭(FSH(‬ ‭&‬ ‭Luteinizing‬
‭Hormone:‬‭Stimulates the ovaries & testes‬ ‭ ineralocorticoids:‬ ‭Promote‬ ‭reabsorption‬ ‭of‬
M
‭Na‬‭+‬ ‭and excretion of K‬‭+‬ ‭in kidneys.‬
T‭ hyroid-stimulating‬ ‭Hormone‬ ‭(TSH):‬ ‭Stimulates‬
‭the thyroid gland‬ ‭ ancreas‬
P
‭Insulin:‬‭Lowers blood glucose level‬
‭ drenocorticotropic‬
A ‭Hormone‬ ‭(ACTH):‬
‭Stimulates the adrenal cortex‬ ‭Glucagon:‬‭Raises blood glucose level‬

‭Prolactin:‬‭Mammary Gland cells‬ ‭ eproductive Organs‬
R
‭These‬ ‭hormones‬ ‭are‬ ‭found‬ ‭in‬ ‭both‬ ‭females‬ ‭and‬
‭ rowth‬ ‭Hormone‬ ‭(GH):‬ ‭Stimulates‬ ‭growth‬ ‭and‬
G ‭males, but with a major role in one sex.‬
‭metabolic functions‬
‭Ovaries:‬
‭Posterior Pituitary:‬
‭ strogens:‬ ‭Stimulate‬ ‭uterine‬ ‭lining‬ ‭growth;‬
E
‭ xytocin:‬ ‭Stimulates‬ ‭the‬ ‭contraction‬‭of‬‭smooth‬
O ‭promote‬ ‭development‬ ‭and‬ ‭maintenance‬ ‭of‬
‭muscle cells in uterus and mammary glands‬ ‭female secondary sex characteristics.‬

‭ asopressin/‬ ‭Antidiuretic‬ ‭Hormone‬ ‭(ADH):‬
V ‭Progestins:‬‭Promote uterine lining growth‬
‭Promotes‬ ‭retention‬ ‭of‬ ‭water‬ ‭by‬ ‭kidneys;‬
‭influences social behavior and bonding‬ ‭Testes:‬

‭Thyroid Gland‬ ‭ ndrogens:‬ ‭Support‬ ‭sperm‬ ‭formation;‬ ‭promote‬
A
T‭ hyroid‬ ‭Hormone‬‭(T‬‭3‬ ‭&‬‭T‬‭4‭)‬ :‬‭Stimulates‬‭and‬‭maintains‬ ‭development‬ ‭and‬ ‭maintenance‬ ‭of‬ ‭male‬
‭metabolic processes‬ ‭secondary sex characteristics.‬

‭Calcitonin:‬‭Lowers blood calcium level‬

‭ arathyroid Gland‬
P
‭Parathyroid‬ ‭Hormone‬ ‭(PTH):‬ ‭Raises‬ ‭blood‬ ‭calcium‬
‭level‬

‭6‬
 ‭THYROID REGULATION: A HORMONE CASCADE‬ ‭ 4:‬ ‭TSH‬ ‭stimulates‬ ‭endocrine‬ ‭cells‬ ‭in‬ ‭the‬ ‭thyroid‬
#
‭PATHWAY‬ ‭gland to secrete T‬‭3‬ ‭and T‬‭4‭.‬ ‬

‭#5:‬‭Thyroid hormone levels return to normal range.‬

‭ 6:‬‭Thyroid‬‭hormone‬‭blocks‬‭TRH‬‭release,‬‭preventing‬
#
‭overproduction of thyroid hormone.‬

‭PArATHYROID HORMONE & VITAMIN D: CONTROL OF‬
‭BLOOD CALCIUM‬

‭#1:‬‭Normal Blood Ca‬‭2+‬ ‭Level (about 10 mg/100mL)‬

‭#2:‬‭Blood Ca‬‭2+‬ ‭level falls.‬

‭#3:‬‭Parathyroid glands release PTH.‬

‭ 4:‬ ‭PTH‬ ‭stimulates‬ ‭Ca‬‭2+‬ ‭release‬ ‭in‬ ‭bones‬ ‭(to‬ ‭#5).‬ ‭It‬
#
‭also‬ ‭stimulates‬ ‭Ca‬‭2+‬ ‭uptake‬ ‭and‬ ‭promotes‬
‭activation of vitamin D in kidneys (to #4.1).‬

‭ 4.1:‬ ‭Active‬ ‭vitamin‬ ‭D‬ ‭increases‬ ‭Ca‬‭2+‬ ‭in‬
#
‭intestines.‬

‭*Circulation throughout the body via blood.‬ ‭#5:‬‭Blood Ca‬‭2+‬ ‭level rises (Back to 1).‬

‭#1:‬‭Thyroid hormone levels drop.‬ ‭EVOLUTION OF HORMONE FUNCTION‬
‭ ver‬ ‭the‬ ‭course‬ ‭of‬ ‭evolution‬ ‭the‬ ‭functions‬ ‭of‬
O
‭ 2:‬‭The‬‭hypothalamus‬‭secretes‬‭Thyrotropin-releasing‬
# ‭particular hormones have‬‭diverged‬‭.‬
‭Hormone‬ ‭(TRH)‬ ‭into‬ ‭the‬ ‭blood.‬ ‭Portal‬ ‭vessels‬ ‭carry‬
‭TRH to anterior pituitary.‬ ‭For example:‬
‭‬ ‭Thyroid‬ ‭hormone‬ ‭plays‬‭a‬‭role‬‭in‬‭metabolism‬
‭ 3:‬ ‭TRH‬ ‭causes‬ ‭anterior‬ ‭pituitary‬ ‭to‬ ‭secrete‬
# ‭across many lineages.‬
‭Thyroid-stimulating Hormone (TSH).‬ ‭‬ ‭But‬‭in‬‭frogs:‬‭it‬‭stimulates‬‭the‬‭resorption‬‭of‬‭the‬
‭tadpole tail during metamorphosis.‬

‭7‬