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Cells & Tissues

Friday, September 9, 2022

Cells - the most basic unit of life

Tissues - collection of like cells performing a similar task

Organs - multiple tissues working together

Organ system - a group of organs that serve a certain function

Organism - individual life form

Monday, September 12, 2022

The cell: the basic unit of life

  • 4 regions: cell membrane, cytoplasm, cell inclusions, cell organelles

Cell disorders

Carcinoma: cancer cells

  • Divide until large number of small non-functional cells

  • Could be lethal

  • Carcinogen: cancer causing agent

Benign tumor: abnormal growth; not cancerous; no metastasis; good tumor compared to mal…

Malignant tumor: cancerous; abnormal growth; undergoes metastasis(spreads); bad tumor

Organelle

Structure

Function

Mitochondria

Has a double membrane arrangement; four distinct compartments - the outer membrane, the intermembrane space, the inner membrane, and the matrix

Powerhouse of the cell

Nucleus

Clusters of neuron bodies in the central nervous system center of an atom that contains protons and neurons

Control center of the cell which contains genetic material

Cell membrane

Thin double layer structure of lipid molecules with protein molecules throughout it

Encloses cell contents; keeps unwanted substances out

Nucleolus

Spherical structure

Procedure and assemble the cells ribosomes

Smooth ER

Continuous of the rough er; consists of tubules arranged in a looping network

Enzymes speed up reactions involved with metabolizing lipids

Capsule

Slimy layers composed mostly of polysaccharides that encloses the cell wall

Protect bacteria from attack by white blood cells in the animals they effect; keep cells from drying out and help bacteria attach to other cells

Cell wall

Lining of the cell

Provides protection to the cell, circulation, water, and minerals

Vacuole

Surrounded by a thin membrane and filled with fluid and any molecules they take in

Storage structure in a cell; hold food for later use or waste removal; maintain water balance

Lysosomes

Activated digestive enzymes; acidic pH; spheres; membranes

Digest biological molecules(viruses, bacteria, dead organelles); metabolic functions

Rough ER

Made of series of flattened sacs that are part of a continuous membrane

Create proteins

Glycoprotein

Molecules that comprise protein and carb chains that are involved with psychological functions

Reproduction, immune system, hormones, and protection of cells and organisms

Peripheral protein

Anchored to the membrane or to other protein

Support, communicate, enzymes, and molecule transfer in the cell

Chromosomes

Made of tightly coiled chromatin

Carry gene traits; determines the genetic sex (XY/XX)

Cytoplasm

Gel like fluid that floats within the cell

Provides a platform upon which other organelles can operate within a cell

Cilia

Short, hair-like structures on the surface surrounding cells

Help the cell move around as well as prevent debris and possible pathogens from invading the body

Cytoskeleton

Made of microtubules, give the shape of just lines

Provides structure and support, organelle transport, cell division

Flagella

Hair-like organelle

Enables many protozoa, bacteria and spermatozoa

Transmembrane protein

Amino acids that form the shape of the protein

Connect cells together, act as enzymes

Ribosome

Two subunits made of proteins and rna

Translates genetic code into amino acids that form proteins

Golgi body

Flattened membrane sacs that absorb vesicles from rough ER

Creates new ones, separates proteins

Wednesday, September 14, 2022

Cellular respiration

  • Food is broken down to form energy in the form of ATP

  • Everything we do requires energy

  • Glucose + oxygen ---> carbon dioxide + water

Homeostasis: the maintenance of a stable internal environment

All body systems contribute to homeostasis, especially the endocrine and nervous system

Homeostatic control mechanism: causes an imbalance

  1. Stimulus: produces change in variable

  2. Receptor: change in variable is recognized or received by the receptor

  3. Input: information sent along the afferent pathway to the control center

  4. Output: information send along efferent pathway to effector

  5. Response of effector feeds back to influence magnitude of stimulus and returns variable to homeostasis

Negative feedback mechanisms/loop: acting in opposition to become balance

  • Shuts down reaction and counteracts the stimulus

Positive feedback mechanisms/loop: encourage or increase a reaction to become balances

  • Speed up or enhances the reaction

Tissues: groups of cells that are similar in structure and function

4 types: epithelial, connective, muscle, and nervous

Tissue repair:

  1. Inflammation - release of inflammatory chemicals which spark the blood/redness; capillaries dilate(bigger) which increases permeability(if it can pass through); blood clot begins to form(deep); scab forms(superficial)

  2. Organization - clot replaced by granulation tissue(restore vascularity); collagen produced by fibroblasts(fibers); macrophages(large cells eat) clean dead/dying cells; surface epithelium regenerates

  3. Regeneration - fibrous tissue reconnects: underlying tissue = scar tissue; epithelial tissue thickens: epithelium = fully regenerated

Factors affecting tissue repair: type of injury, immediate care, blood supply, health and age of organism

Thursday, September 15, 2022

Epithelial tissue: next to open space; “epi” meaning on top of/upon

Structure: closely joined cells; free exposed to air or fluid; attached to basement membrane; supported by underlying connective tissue; innervated but avascular(nerves but no blood in the epithelial tissue)

Function: covers body’s outside; lines organs and cavities; regenerate rapidly; barrier against microbes, injury and fluid loss

Categories of epithelial tissue: by shape or layer

  • Squamous: very flat; circular; fried egg

  • Cuboidal: cube shape; squares

  • Columnar: tall and straight; rectangle

  • Simple: 1 layer of cells

  • Stratified: 2 or more layers of cells

  • Pseudostratified: 1 layer with appearance of multiple; cells vary in length; “pseudo” means fake

Simple squamous: thin and leaky cause of circle and flat; cells function in the exchange of material by diffusion; found in line blood vessels and line air sacs of lungs to pass oxygen right through

Stratified squamous: regenerates rapidly near the basement membrane; new cells at the bottom of the tissue, not top so that newer cells are protected and old cells can be remove rather than newer ones; found in surfaces subject to abrasion or coming in contact with something like the out layer of skin

Simple cuboidal: specialized for secretion; found in kidney tubules, thyroid gland and salivary glands

Stratified cuboidal: rare in the body; found in the mammary glands in breast tissue

Simple columnar: like a water balloon filled with cytoplasm; found where secretion or active absorption is major function; found in intestines(small absorbs nutrients and large absorbs water)

Stratified columnar: protection; secretion; rare in the body; found in the male urethra and pharynx

Exceptions(two):

Transitional epithelium: several cell layers, basal cells are cuboidal, surface cells are dome shaped; stretched to permit the distention of; lines the bladder, ureters, and part of the urethra

Pseudostratified columnar: similar to stratified columnar; only 1 cell layer thick, but appears to be multiple layers; line nasal passages of many vertebrates

Monday/Tuesday, September 19/20, 2022

Connective tissue:

Structure: properties are determined by relative amounts of cells, extracellular matrix(ground substance/fluid and fibers), and vascularity varies(if there's blood present or not)

Function: connect/binding and support, protection, insulation(adipose), transportation(literal blood)

Structural elements: cells, fibers, and ground substances(every tissue does not have the same combination of all these)

  • Cells: fibroblast/fibrocyte(fibrous material); osteoblast/osteocyte(bone); chondroblast/chondrocyte(cartilage); hemoblast/hemocyte(blood); macrophage/mast cell(white blood cells)

  • Fibers: collagen(tough, strong fibers); elastic(long, thin stretchy fibers); reticular(branched delicate networks)

  • Ground substance: interstitial(tissue) fluid; varying thickness

Loose areolar: fills all the spaces that seems empty; under any epithelial tissue; looks like lines

  • Properties: gel-like matrix with all fiber types; cells include fibroblasts, macrophages, mast cells, white blood cells

  • Functions: wraps and cushion organs; macrophages phagocytize bacteria and help with inflammation; holds tissue fluid

  • Locations: under epithelia, lines mucus membrane; surrounds capillaries and organs

Adipose: hold onto fat; nucleus shoved to side due to fat taking up all the space

  • Properties: sparse matrix; closely packed fat cells; nuclei pushed to side

  • Functions: reserve fuel; insulation; support/protect organs

  • Locations: under skin; around kidneys and eyeballs; within abdomen; forms breast tissue

Reticular: arms/branches out; branch-y networks

  • Properties: network of fibers with cells; loose ground substance

  • Functions: internal skeleton that supports other cell types(WBC, mast cells, macrophages)

  • Locations: lymphoid organs; lymph nodes; bone marrow; spleen

Fibrous/Dense regular: looks like little waves of fibers

  • Properties: parallel collagen fibers; few elastin fibers

  • Functions: attach muscles to bone or other muscles; resistant to pulling

  • Locations: tendons; ligaments; aponeuroses(what connects muscle to muscle)

Dense irregular: similar to regular but not in parallel lines

  • Properties: irregular arranged collagen fibers; some elastic fibers

  • Functions: withstand tension in many directions; structural strength

  • Locations: dermis of skin; submucosa of digestive tract; capsules of organs and joints

Hyaline cartilage: tough; all over and around your bones; looks like swiss cheese

  • Properties: no defined shape; firm matrix; collagen fiber network

  • Functions: support, reinforce, cushions; resist compression

  • Locations: embryonic skeleton; ends of bones; costal cartilage of ribs; nose, trachea

Elastic cartilage: hard-ish with lines; more “nasty” swiss cheese

  • Properties: similar to hyaline but with more elastic fibers;

  • Functions: maintains shape/structure; flexibility

  • Locations: external; epiglottis

Fibrocartilage: somewhat parallel line with cells

  • Properties: matrix like hyaline cartilage; mostly thick collagen

  • Functions: resists tension; absorb compressive shock

  • Locations: intervertebral discs; pubic symphysis; discs of knee joints

Bone: actually looks like swiss cheese; looks like tree trunks;

  • Properties: hard calcified matrix; lost of collagen fibers; vascularized

  • Functions: support and protect; hematopoiesis

  • Locations: bones

Blood: only fluid tissue in the body; looks like vessels really zoomed out; purple dots are white blood cells and pink dots are red blood cells

  • Properties: red and white blood cells; plasma(fluid matrix)

  • Functions: transport gasses, nutrients, waste, and other substances

  • Locations: blood vessels

Wednesday, September 21, 2022

Muscular tissue:

Structure: closely packed cells with contractile proteins; fed by many blood vessels; more tissue in you body is muscle than any other tissue; more muscle tissue in most animals than any other tissue

Functions: movement; temperature regulation

Skeletal muscle: long cylinder cells with multiple nuclei; long straight tube with stripes

  • Properties: long, cylindrical multinucleate cells with obvious striations

  • Functions: initiates and controls voluntary movement

  • Locations: muscles that attach to bones or skin

Cardiac muscle: dark lines are the discs; branches; also striated/stripes

  • Properties: branching, striated, uninucleate cells interlocking at intercalated discs

  • Functions: propels blood into circulation; involuntary

  • Locations: walls of the heart

Smooth muscle: not striated/striped; semi circle shape; thin lines that are pinched off at the end

  • Properties: sheets of spindle-shaped cells with central nuclei that have no striations

  • Functions: propels substances along internal passageways; involuntary

  • Locations: walls of hollow organs

Nervous tissue: long strings spreading out from cytoplasm; looks like roots/ splat of paint

Structure: neurons and support cells; found in the brain, spinal cord, and peripheral nerves

Functions: sense stimuli; transmits electrical signals; regulates and controls body functions

KP
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Cells & Tissues

Friday, September 9, 2022

Cells - the most basic unit of life

Tissues - collection of like cells performing a similar task

Organs - multiple tissues working together

Organ system - a group of organs that serve a certain function

Organism - individual life form

Monday, September 12, 2022

The cell: the basic unit of life

  • 4 regions: cell membrane, cytoplasm, cell inclusions, cell organelles

Cell disorders

Carcinoma: cancer cells

  • Divide until large number of small non-functional cells

  • Could be lethal

  • Carcinogen: cancer causing agent

Benign tumor: abnormal growth; not cancerous; no metastasis; good tumor compared to mal…

Malignant tumor: cancerous; abnormal growth; undergoes metastasis(spreads); bad tumor

Organelle

Structure

Function

Mitochondria

Has a double membrane arrangement; four distinct compartments - the outer membrane, the intermembrane space, the inner membrane, and the matrix

Powerhouse of the cell

Nucleus

Clusters of neuron bodies in the central nervous system center of an atom that contains protons and neurons

Control center of the cell which contains genetic material

Cell membrane

Thin double layer structure of lipid molecules with protein molecules throughout it

Encloses cell contents; keeps unwanted substances out

Nucleolus

Spherical structure

Procedure and assemble the cells ribosomes

Smooth ER

Continuous of the rough er; consists of tubules arranged in a looping network

Enzymes speed up reactions involved with metabolizing lipids

Capsule

Slimy layers composed mostly of polysaccharides that encloses the cell wall

Protect bacteria from attack by white blood cells in the animals they effect; keep cells from drying out and help bacteria attach to other cells

Cell wall

Lining of the cell

Provides protection to the cell, circulation, water, and minerals

Vacuole

Surrounded by a thin membrane and filled with fluid and any molecules they take in

Storage structure in a cell; hold food for later use or waste removal; maintain water balance

Lysosomes

Activated digestive enzymes; acidic pH; spheres; membranes

Digest biological molecules(viruses, bacteria, dead organelles); metabolic functions

Rough ER

Made of series of flattened sacs that are part of a continuous membrane

Create proteins

Glycoprotein

Molecules that comprise protein and carb chains that are involved with psychological functions

Reproduction, immune system, hormones, and protection of cells and organisms

Peripheral protein

Anchored to the membrane or to other protein

Support, communicate, enzymes, and molecule transfer in the cell

Chromosomes

Made of tightly coiled chromatin

Carry gene traits; determines the genetic sex (XY/XX)

Cytoplasm

Gel like fluid that floats within the cell

Provides a platform upon which other organelles can operate within a cell

Cilia

Short, hair-like structures on the surface surrounding cells

Help the cell move around as well as prevent debris and possible pathogens from invading the body

Cytoskeleton

Made of microtubules, give the shape of just lines

Provides structure and support, organelle transport, cell division

Flagella

Hair-like organelle

Enables many protozoa, bacteria and spermatozoa

Transmembrane protein

Amino acids that form the shape of the protein

Connect cells together, act as enzymes

Ribosome

Two subunits made of proteins and rna

Translates genetic code into amino acids that form proteins

Golgi body

Flattened membrane sacs that absorb vesicles from rough ER

Creates new ones, separates proteins

Wednesday, September 14, 2022

Cellular respiration

  • Food is broken down to form energy in the form of ATP

  • Everything we do requires energy

  • Glucose + oxygen ---> carbon dioxide + water

Homeostasis: the maintenance of a stable internal environment

All body systems contribute to homeostasis, especially the endocrine and nervous system

Homeostatic control mechanism: causes an imbalance

  1. Stimulus: produces change in variable

  2. Receptor: change in variable is recognized or received by the receptor

  3. Input: information sent along the afferent pathway to the control center

  4. Output: information send along efferent pathway to effector

  5. Response of effector feeds back to influence magnitude of stimulus and returns variable to homeostasis

Negative feedback mechanisms/loop: acting in opposition to become balance

  • Shuts down reaction and counteracts the stimulus

Positive feedback mechanisms/loop: encourage or increase a reaction to become balances

  • Speed up or enhances the reaction

Tissues: groups of cells that are similar in structure and function

4 types: epithelial, connective, muscle, and nervous

Tissue repair:

  1. Inflammation - release of inflammatory chemicals which spark the blood/redness; capillaries dilate(bigger) which increases permeability(if it can pass through); blood clot begins to form(deep); scab forms(superficial)

  2. Organization - clot replaced by granulation tissue(restore vascularity); collagen produced by fibroblasts(fibers); macrophages(large cells eat) clean dead/dying cells; surface epithelium regenerates

  3. Regeneration - fibrous tissue reconnects: underlying tissue = scar tissue; epithelial tissue thickens: epithelium = fully regenerated

Factors affecting tissue repair: type of injury, immediate care, blood supply, health and age of organism

Thursday, September 15, 2022

Epithelial tissue: next to open space; “epi” meaning on top of/upon

Structure: closely joined cells; free exposed to air or fluid; attached to basement membrane; supported by underlying connective tissue; innervated but avascular(nerves but no blood in the epithelial tissue)

Function: covers body’s outside; lines organs and cavities; regenerate rapidly; barrier against microbes, injury and fluid loss

Categories of epithelial tissue: by shape or layer

  • Squamous: very flat; circular; fried egg

  • Cuboidal: cube shape; squares

  • Columnar: tall and straight; rectangle

  • Simple: 1 layer of cells

  • Stratified: 2 or more layers of cells

  • Pseudostratified: 1 layer with appearance of multiple; cells vary in length; “pseudo” means fake

Simple squamous: thin and leaky cause of circle and flat; cells function in the exchange of material by diffusion; found in line blood vessels and line air sacs of lungs to pass oxygen right through

Stratified squamous: regenerates rapidly near the basement membrane; new cells at the bottom of the tissue, not top so that newer cells are protected and old cells can be remove rather than newer ones; found in surfaces subject to abrasion or coming in contact with something like the out layer of skin

Simple cuboidal: specialized for secretion; found in kidney tubules, thyroid gland and salivary glands

Stratified cuboidal: rare in the body; found in the mammary glands in breast tissue

Simple columnar: like a water balloon filled with cytoplasm; found where secretion or active absorption is major function; found in intestines(small absorbs nutrients and large absorbs water)

Stratified columnar: protection; secretion; rare in the body; found in the male urethra and pharynx

Exceptions(two):

Transitional epithelium: several cell layers, basal cells are cuboidal, surface cells are dome shaped; stretched to permit the distention of; lines the bladder, ureters, and part of the urethra

Pseudostratified columnar: similar to stratified columnar; only 1 cell layer thick, but appears to be multiple layers; line nasal passages of many vertebrates

Monday/Tuesday, September 19/20, 2022

Connective tissue:

Structure: properties are determined by relative amounts of cells, extracellular matrix(ground substance/fluid and fibers), and vascularity varies(if there's blood present or not)

Function: connect/binding and support, protection, insulation(adipose), transportation(literal blood)

Structural elements: cells, fibers, and ground substances(every tissue does not have the same combination of all these)

  • Cells: fibroblast/fibrocyte(fibrous material); osteoblast/osteocyte(bone); chondroblast/chondrocyte(cartilage); hemoblast/hemocyte(blood); macrophage/mast cell(white blood cells)

  • Fibers: collagen(tough, strong fibers); elastic(long, thin stretchy fibers); reticular(branched delicate networks)

  • Ground substance: interstitial(tissue) fluid; varying thickness

Loose areolar: fills all the spaces that seems empty; under any epithelial tissue; looks like lines

  • Properties: gel-like matrix with all fiber types; cells include fibroblasts, macrophages, mast cells, white blood cells

  • Functions: wraps and cushion organs; macrophages phagocytize bacteria and help with inflammation; holds tissue fluid

  • Locations: under epithelia, lines mucus membrane; surrounds capillaries and organs

Adipose: hold onto fat; nucleus shoved to side due to fat taking up all the space

  • Properties: sparse matrix; closely packed fat cells; nuclei pushed to side

  • Functions: reserve fuel; insulation; support/protect organs

  • Locations: under skin; around kidneys and eyeballs; within abdomen; forms breast tissue

Reticular: arms/branches out; branch-y networks

  • Properties: network of fibers with cells; loose ground substance

  • Functions: internal skeleton that supports other cell types(WBC, mast cells, macrophages)

  • Locations: lymphoid organs; lymph nodes; bone marrow; spleen

Fibrous/Dense regular: looks like little waves of fibers

  • Properties: parallel collagen fibers; few elastin fibers

  • Functions: attach muscles to bone or other muscles; resistant to pulling

  • Locations: tendons; ligaments; aponeuroses(what connects muscle to muscle)

Dense irregular: similar to regular but not in parallel lines

  • Properties: irregular arranged collagen fibers; some elastic fibers

  • Functions: withstand tension in many directions; structural strength

  • Locations: dermis of skin; submucosa of digestive tract; capsules of organs and joints

Hyaline cartilage: tough; all over and around your bones; looks like swiss cheese

  • Properties: no defined shape; firm matrix; collagen fiber network

  • Functions: support, reinforce, cushions; resist compression

  • Locations: embryonic skeleton; ends of bones; costal cartilage of ribs; nose, trachea

Elastic cartilage: hard-ish with lines; more “nasty” swiss cheese

  • Properties: similar to hyaline but with more elastic fibers;

  • Functions: maintains shape/structure; flexibility

  • Locations: external; epiglottis

Fibrocartilage: somewhat parallel line with cells

  • Properties: matrix like hyaline cartilage; mostly thick collagen

  • Functions: resists tension; absorb compressive shock

  • Locations: intervertebral discs; pubic symphysis; discs of knee joints

Bone: actually looks like swiss cheese; looks like tree trunks;

  • Properties: hard calcified matrix; lost of collagen fibers; vascularized

  • Functions: support and protect; hematopoiesis

  • Locations: bones

Blood: only fluid tissue in the body; looks like vessels really zoomed out; purple dots are white blood cells and pink dots are red blood cells

  • Properties: red and white blood cells; plasma(fluid matrix)

  • Functions: transport gasses, nutrients, waste, and other substances

  • Locations: blood vessels

Wednesday, September 21, 2022

Muscular tissue:

Structure: closely packed cells with contractile proteins; fed by many blood vessels; more tissue in you body is muscle than any other tissue; more muscle tissue in most animals than any other tissue

Functions: movement; temperature regulation

Skeletal muscle: long cylinder cells with multiple nuclei; long straight tube with stripes

  • Properties: long, cylindrical multinucleate cells with obvious striations

  • Functions: initiates and controls voluntary movement

  • Locations: muscles that attach to bones or skin

Cardiac muscle: dark lines are the discs; branches; also striated/stripes

  • Properties: branching, striated, uninucleate cells interlocking at intercalated discs

  • Functions: propels blood into circulation; involuntary

  • Locations: walls of the heart

Smooth muscle: not striated/striped; semi circle shape; thin lines that are pinched off at the end

  • Properties: sheets of spindle-shaped cells with central nuclei that have no striations

  • Functions: propels substances along internal passageways; involuntary

  • Locations: walls of hollow organs

Nervous tissue: long strings spreading out from cytoplasm; looks like roots/ splat of paint

Structure: neurons and support cells; found in the brain, spinal cord, and peripheral nerves

Functions: sense stimuli; transmits electrical signals; regulates and controls body functions