Notes in MBLDD

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Status	Last Update	Fields
Published	02/20/2025	Resolving power is {{c1::inversely::directly/inversely}} proportional to "h"
Published	02/20/2025	The minimum distance between two objects to distinguish them as separate (h) is dependent on {{c1::the wavelength of light}} and {{c1::numerical apert…
Published	02/20/2025	Oil can {{c2::increase::increase/decrease}} the numerical aperture, causing the value of "h" to {{c1::decrease::increase/decrease}} and resolving powe…
Published	02/20/2025	Size of 1 RBC ~ {{c1::7-8 μm}}
Published	02/20/2025	Types of histological sections {{c1::Paraffin}}Thickest (5 µm), worst resolution{{c1::Frozen}}Intermediate (1 µm){{c1::Semithin}}Thinnest (<1 …
Published	02/20/2025	Acidophilic structures have a {{c1::high::high/low}} pH
Published	02/20/2025	Basophilic structures have a {{c1::low::high/low}} pH
Published	02/20/2025	{{c1::Hematoxylin}} stains {{c2::nuclei, nucleoli, and basophilic structures}} {{c3::blue::color?}}
Published	02/20/2025	{{c1::Eosin}} stains {{c2::cytoplasm}} and {{c2::acidophilic structures}} {{c3::pink::color?}}
Published	02/20/2025	{{c1::PAS}} stains {{c2::carbohydrates and glycoproteins}} {{c3::purplish-red::color?}}
Published	02/20/2025	{{c2::Silver impregnation}} stains {{c3::Golgi}}, {{c3::reticulum}}, {{c3::nerve fibers}}, and {{c3::cell borders of the mesothelium}} {{c1::dark viol…
Published	02/20/2025	{{c2::Osmium tetroxide}} stains {{c3::Golgi}}, {{c3::myelin}}, and {{c3::lipid}} {{c1::black with yellow-brown background::color?}}
Published	02/20/2025	{{c1::Feulgen}} stains {{c2::DNA}} {{c3::magenta::color?}}
Published	02/20/2025	{{c1::Methyl green}} stains {{c2::DNA}} {{c3::green::color?}}
Published	02/20/2025	{{c3::Pyronin}} stains {{c1::RNA}} {{c2::red::color?}}
Published	02/20/2025	{{c1::Phosphotungstic acid-hematoxylin stain (PTAH)}} stains {{c2::mitochondria}} {{c3::blueish-purple}} and {{c2::collagen}} {{c3::yellow to brownish…
Published	02/20/2025	{{c1::Immunohistochemistry}}Localizes specific proteins in cells or tissue by reacting an {{c2::antigen}} and {{c2::antibody}}
Published	02/20/2025	{{c1::Artifacts}}A flaw in histological section caused by faulty technique Bonus: List examples!
Published	02/20/2025	4 basic tissues{{c1::Epithelial tissue}}{{c1::Connective tissue}}{{c1::Nerve}}{{c1::Muscle}}
Published	02/20/2025	{{c2::Exocrine}} glands {{c1::DO}} remain in contact with the epithelium
Published	02/20/2025	{{c2::Endocrine}} glands {{c1::don't::do/don't}} remain in contact with the epithelium
Published	02/20/2025	Immune and inflammatory responses occur within {{c1::connective tissue::tissue type?}}
Published	02/20/2025	Common features of cellsSurrounded by a {{c1::membrane}}Have one or more* {{c1::nuclei}}Contain {{c1::organelles}}Contain {{c1::inclusions}}
Published	02/20/2025	The {{c1::outer}} nuclear membrane faces the {{c2::cytoplasm}} and is associated with the {{c2::rER}}
Published	02/20/2025	The {{c1::inner}} nuclear membrane faces the {{c2::nuclear matrix}} and is associated with {{c2::chromatin}} and {{c2::nuclear lamina}}
Published	02/20/2025	{{c1::Perinuclear cisternae}}The space between the two unit membranes of the nuclear envelope
Published	02/20/2025	The {{c2::inner nuclear membrane}} and {{c2::outer nuclear membranes}} are continuous with one another at the {{c1::nuclear pores}}
Published	02/20/2025	{{c1::Nuclear lamina}}Structural link between {{c2::chromatin}} and {{c2::the nuclear envelope}}
Published	02/20/2025	{{c1::Phosphorylation of lamins}} during mitosis causes {{c2::dissolution of the nuclear lamina and envelope}}
Published	02/20/2025	The nuclear lamina is made up of {{c1::intermediate filaments::cytoskeletal element?}}
Published	02/20/2025	{{c1::Nucleosome}}The simplest arrangement of chromatin packing in the nucleus
Published	02/20/2025	{{c1::Chromatin fibrils}}Coiled consecutive nucleosomes bound by another type of histone
Published	02/20/2025	{{c1::Metaphase chromosomes}} is the most compact chromatin packing in the nucleus
Published	02/20/2025	{{c1::Autosomes (22)}}Chromosomes that are not sex chromosomes
Published	02/20/2025	{{c1::Genome (46)}}Number of chromosomes in somatic cells
Published	02/20/2025	{{c1::Barr body}}Inactive, highly-coiled X chromosome
Published	02/20/2025	{{c1::Diploid}}Cells with the full complement of chromosomes (46)
Published	02/20/2025	{{c1::Haploid}}Cells having only one of each pair of chromosomes (23)
Published	02/20/2025	{{c1::The nucleolus}}The site of {{c2::rRNA}} transcription
Published	02/20/2025	{{c2::Nucleolar organizing regions}}Comprised of {{c1::ten::#?}} interphase chromosomes that contain the genes that {{c1::encode rRNA}}
Published	02/20/2025	Three areas of the {{c1::nucleolus}}{{c2::Pale-staining fibrillar center}}{{c2::Dense pars fibrosa}}{{c2::Pars granulosa }}
Published	02/20/2025	{{c1::mRNA}}Contains sequences that code for amino acids thereby dictating the amino acid sequence of proteins
Published	02/20/2025	{{c1::tRNA}}Transfers the correct amino acid to the ribosome for incorporation into the protein
Published	02/20/2025	{{c1::rRNA}}Forms ribosomes in association with specific proteins
Published	02/20/2025	The {{c1::60S}} subunit of eukaryotic ribosomes {{c2::catalyzes peptide bond formation::action}}
Published	02/20/2025	The {{c1::40S}} subunit of eukaryotic ribosomes {{c2::binds mRNA and tRNA::action}}
Published	02/20/2025	{{c1::Polyribosomes}}Clusters of ribosomes around a single strand of mRNA
Published	02/20/2025	Ribosome formation events occurring in the {{c1::nucleolus}}Transcription of {{c2::rDNA}} to form {{c2::pre-rRNA}}Association with ribosomal proteins …
Published	02/20/2025	Ribosome formation events occurring in the nucleus{{c1::Formation of large ribosomal subunit}}{{c1::Active transport&nbs…
Published	02/20/2025	Ribosome formation events occuring in the {{c1::cytoplasm}}Assembly of ribosomal subunits into {{c2::ribosomes}} and {{c2::polysomes}} in the presence…
Published	02/20/2025	All membranes are composed of:{{c1::Lipids}}{{c1::Proteins (embedded in bilayer)}}{{c1::Carbohydrates (confined to membrane surface)}}
Published	02/20/2025	Major lipid components of membranes{{c1::Phospholipids::most abundant}}{{c1::Cholesterol::second most abudant}}{{c1::Glycolipids::third most abundant}…
Published	02/20/2025	{{c1::Cholesterol::Lipid component?}} maintains the structural integrity of membranes
Published	02/20/2025	{{c1::Glycolipids::Lipid component?}} are always found on the {{c2::outer}} leaflet
Published	02/20/2025	{{c1::Peripheral}} proteins associate with membranes through ionic interaction
Published	02/20/2025	{{c1::Integral}} proteins are buried in the lipid membrane such as transmembrane proteins
Published	02/20/2025	The {{c1::inner::inner/outer}} leaflet of membranes has the greatest amount of proteins inserted into it
Published	02/20/2025	{{c1::Glycocalyx}}A carbohydrate-rich coating on the outside of cells for recognition, protection, and digestion in the intestines
Published	02/20/2025	{{c1::Lipid rafts}}Specialized membrane domains that associate with or segregate different proteins or signaling molecules
Published	02/20/2025	{{c1::Inner}} leaflet of organelle membranes faces the {{c2::cytoplasm}}
Published	02/20/2025	{{c1::Outer}} leaflet of organelle membranes faces the {{c2::inside of the organelle}}
Published	02/20/2025	Actin {{c2::cross-linking::protein type}} proteins and how they organize actin fibers:{{c1::bundling}} proteins = {{c3::parallel array}}{{c1::gel-form…
Published	02/20/2025	{{c1::Actin}}-specific drugs{{c2::Cytochalasin}}{{c2::Latrunculin}}{{c2::Phalloidin}}{{c2::Swinholide}}
Published	02/20/2025	{{c1::Intermediate filaments}} are the most stable/strong cytoskeletal element
Published	02/20/2025	Microtubules are embedded at the {{c1::negative}} end in {{c2::microtubule-organizing centers (MTOC)}}
Published	02/20/2025	{{c1::Centrosomes}} are composed of{{c2::Fibrous matrix containing >50 copies of γ-tubulin ring complex (γ-TuRC)}}{{c2::Pair of centrioles}}
Published	02/20/2025	Each {{c1::centriole}} is composed of {{c2::nine triplets (9x3) of microtubules}}
Published	02/20/2025	{{c1::Dynamic instability}}Property of microtubules that allows rapid conversion between a growing and shrinkage state
Published	02/20/2025	{{c1::Beta}}-tubulin subunits are microtubule enzymes that catalyze the hydrolysis of {{c2::GTP to GDP}}
Published	02/20/2025	{{c2::Kinesin}}A motor protein responsible for movement toward the {{c1::plus}} end of the microtubule
Published	02/20/2025	{{c2::Dynein}}A motor protein responsible for movement toward the {{c1::negative}} end of the microtubule
Published	02/20/2025	{{c1::Microtubule}}-specific drugs:{{c2::Vinblastine/vincristine}}{{c2::Taxol}}{{c2::Colchicine/colcemid}}
Published	02/20/2025	{{c1::G1}} phasePeriod of cell growth where the cell monitors its environment and size
Published	02/20/2025	{{c1::G0}} phaseSpecialized resting state or terminal differentiated state
Published	02/20/2025	{{c1::S}} phaseReplication of DNA and duplication of centrioles
Published	02/20/2025	{{c1::G2}} phase"Safety gap" where cell makes sure DNA replication is complete
Published	02/20/2025	{{c1::Prophase::cell cycle phase}}
Published	02/20/2025	{{c1::Prometaphase::cell cycle phase}}
Published	02/20/2025	{{c1::Metaphase::cell cycle phase}}
Published	02/20/2025	{{c1::Anaphase::cell cycle phase}}
Published	02/20/2025	{{c1::Telophase::cell cycle phase}}
Published	02/20/2025	The {{c1::mitotic spindle}} consists of:{{c2::Polar microtubules (MTs)}}Overlap at midline{{c2::Kinetochore microtubules (MTs)}}Attach at centromere{{…
Published	02/20/2025	{{c1::Cytokinesis}}a(n) {{c2::actin}}-mediated event that splits the cell into two at the end of mitosis
Published	02/20/2025	{{c1::Annulate lamellae}}Cytoplasmic pore complexes similar to those found at the nuclear envelope
Published	02/20/2025	Lots of {{c1::SER::organelle}} notably found in {{c2::hepatocytes::cell}} and {{c2::Leydig cells::cell}}
Published	02/20/2025	Functions of {{c4::smooth ER}}Synthesis of {{c1::fatty acids and lipids}}Detoxification of {{c2::lipid-soluble drugs (barbituates, alcohol)}}Sequester…
Published	02/20/2025	The RER contains ribosomes bound on the {{c1::cytoplasmic}} side
Published	02/20/2025	3f1a8be7458441db80d0e58e0d40ce10-ao-1
Published	02/20/2025	3f1a8be7458441db80d0e58e0d40ce10-ao-2
Published	02/20/2025	The presence of {{c2::sER}} makes the hepatocyte cytoplasm display {{c1::acido}}philic
Published	02/20/2025	Cytoplasm that takes up {{c2::basic}} stains is known as the {{c1::ergastoplasm}}
Published	02/20/2025	The {{c2::RER}} in neurons is known as {{c1::Nissl substance}}
Published	02/20/2025	Functions of {{c1::rough ER}}{{c3::Post-translational modification (e.g. sulfation, glycosylation)}}Secretion of {{c2::protein (antibodies, insulin, e…
Published	02/20/2025	Ribosomes are directed to the {{c1::RER membrane::portion of structure}} by the {{c2::signal peptide}} on the growing polypeptide chain
Published	02/20/2025	The polypeptide chain-ribosome complex binds to a {{c1::signal recognition particle (SRP) receptor}} on the RER membrane and is directed to a {{c2::pr…
Published	02/20/2025	Cleavage of the signal peptide and initial glycosylation of polypeptide chains occur in the {{c1::RER cisternae::portion of structure}}
Published	02/20/2025	Functions of {{c1::Golgi apparatus}}Modification of {{c2::protein and lipids}}Trafficking of {{c3::small vesicles}}Protein {{c4::packaging and sorting…
Published	02/20/2025	The {{c1::trans::cis/trans}} face of the the Golgi apparatus has lots of vesicles budding off it
Published	02/20/2025	The {{c1::cis::cis/trans}} face of the the Golgi apparatus receives secretory proteins from the RER
Published	02/20/2025	Two types of secretory pathways leading to exocytosis:{{c1::Constitutive}}{{c1::Regulated}}
Published	02/20/2025	{{c1::Clathrin}}-coated vesicles transport newly synthesized proteins from the {{c2::trans golgi network (TGN)}} to {{c2::lysosomes}} or {{c2::se…
Published	02/20/2025	{{c1::COP I}}-coated vesicles transport proteins from the {{c2::Golgi}} to {{c2::RER}}
Published	02/20/2025	{{c1::COP II}}-coated vesicles transport proteins from the {{c2::RER}} to {{c2::Golgi}}
Published	02/20/2025	{{c1::Clathrin}}-coated vesicles uptake {{c2::LDL}}-receptors and {{c2::growth factor}}-receptors via {{c3::receptor-mediated endocytosis::process}}
Published	02/20/2025	{{c2::Clathrin}}Consists of 3 large and 3 small polypeptide chains that are shaped like a {{c1::triskelion::shape}}
Published	02/20/2025	{{c1::Caveolae}} Invaginations of cellular membrane involved in {{c2::clathrin-independent}} endocytosis and {{c2::transcytosis}}
Published	02/20/2025	{{c1::Caveolae}}>A special type of lipid raft formed by small invaginations of the plasma membrane
Published	02/20/2025	{{c1::Pinocytosis}}The ingestion of fluids and solutes via small (< 150 nm) vesicles
Published	02/20/2025	{{c1::Phagocytosis}}The ingestion of large particles (>250 nm) by specialized cells
Published	02/20/2025	Phagocytes recognize cells with {{c1::Fc receptors::structure}}
Published	02/20/2025	d8885a1fa4c846e7b070622de45319d4-oa-1
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Published	02/20/2025	Synthesis of {{c1::lysosomal acid hydrolases}} occurs in the {{c3::rough ER::organelle}}, which are then transported to the lysosome via addition of {…
Published	02/20/2025	Lysosomal hydrolases only function at an internal pH of ~{{c1::4.7}}
Published	02/20/2025	Lysosomes can be differentiated from secretory vesicles because of their {{c1::nonuniform}} appearance
Published	02/20/2025	cfc3584d40b24702bdcdb06169d47b66-oa-1
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Published	02/20/2025	Release of {{c1::cytochrome c}} from the {{c2::intermembrane space}} initiates intrinsic apoptosis
Published	02/20/2025	{{c1::Inner mitochondrial membrane}}Cell membrane with the highest protein concentration
Published	02/20/2025	{{c1::Cardiolipin}}Phospholipoprotein that makes the {{c2::inner mitochondrial membrane}} impermeable to ions
Published	02/20/2025	{{c1::Inner membrane subunits}}"lollipop-like structures" in the mitochondira responsible for {{c2::generation of ATP from ADP and inorganic phosphate…
Published	02/20/2025	The enzymes of the respiratory chain (oxidative phosphorylation) are contained within the {{c1::inner mitochondrial membrane::structure}}
Published	02/20/2025	The enzymes of the citric acid (Krebs cycle) cycle are contained within the {{c1::mitochondrial matrix::structure}}
Published	02/20/2025	The enzymes involved in β-oxidation of fatty acids are contained within the {{c1::mitochondrial matrix::location}}
Published	02/20/2025	Reactions of the {{c1::mitochondrial matrix}} Conversion of {{c2::pyruvate and fatty acids into acetyl CoA}}Entry of {{c2::acetyl CoA into Krebs cycle…
Published	02/20/2025	Reactions of the {{c1::inner mitochondrial membrane}}{{c2::electron transport chain}}{{c2::ATP synthase}}
Published	02/20/2025	Mitochondria of {{c1::brown}} fat produces {{c2::heat}}
Published	02/20/2025	{{c1::Zellweger syndrome}}The most common inherited disease related to {{c2::peroxisomes}}
Published	02/20/2025	Functions of {{c1::peroxisomes}}Breakdown of {{c2::fatty acid molecules to form acetyl CoA}}Detoxification in {{c3::liver and kidney (e.g. alcohol to …
Published	02/20/2025	Neuronal peroxisomes catalyze {{c1::plasmalogen}} formation, the most abudant class of phospholipid in {{c2::myelin}}
Published	02/20/2025	Cellular inclusions differ from organelles in that they are {{c1::generally inactive}}
Published	02/20/2025	Lipids, glycogen granules, melanin, hemosiderin, and lipofuscin are all examples of {{c1::cellular inclusions}}
Published	02/20/2025	In electron microscopy, {{c2::glycogen}} particles appear as 20-30 nm dense granules called {{c1::beta particles}} which aggregate to form {{c1::…
Published	02/20/2025	{{c1::Glycogenated}} nuclei are found in {{c1::liver (hepatocyte)::organ}} biopsy specimens of patients withMetabolic syndrome{{c3::Diabetes}}{{c3::Ob…
Published	02/20/2025	{{c1::Steatosis}}Abnormal fat accumulation in liver cells due to obesity, metabolic syndrome, or alcohol consumption
Published	02/20/2025	{{c2::Lipofuscin}}Yellow-brown pigment representing undigested residues in {{c1::lysosomes::structure}}
Published	02/20/2025	{{c1::Hemosiderin}}A granular pigment directly derived from {{c2::hemoglobin}}
Published	02/20/2025	{{c1::Melanin}}Inclusion notably found in keratinocytes, pigment cells of the retina, and some nerve cells of the brain
Published	02/20/2025	{{c1::Crystals}}Least common of the inclusions; often found in steroid-producing cells (e.g. ovaries, testis)
Published	02/20/2025	{{c1::Apoptosis::cell process}}
Published	02/20/2025	{{c1::Necrosis::Apoptosis/Necrosis}} is an inflammatory process
Published	02/20/2025	{{c1::Necrosis::cell process}}
Published	02/20/2025	Two pathways for caspase activation (apoptosis){{c1::Intrinsic (mitochondrial) pathway}}{{c1::Extrinsic (death-receptor) pathway}}
Published	02/20/2025	Apoptosis examples in the adult{{c1::Uterus}}{{c1::Trauma}}{{c1::Viral or transformed cells}}
Published	02/20/2025	As bond multiplicity increases, energy {{c1::increases}} and distance {{c1::decreases}}
Published	02/20/2025	Chemical bonds in order of increasing bond strength{{c1::Covalent}} > {{c1::Ionic}} ~ {{c1::Hydrogen}} > {{c1::Van der Waals interactions}}
Published	02/20/2025	{{c1::Ionic bonds}}Electrostatic interactions between two ions of opposite charge
Published	02/20/2025	Shared electrons between non-metal atoms{{c1::Covalent bond}}
Published	02/20/2025	{{c1::Hydrogen bond}}Permanent dipoles created by unequal sharing of electrons in a bond
Published	02/20/2025	{{c1::Van der Waals interactions (London dispersion forces)}}Induced dipoles brought about by bringing molecules in close proximity
Published	02/20/2025	{{c1::Hydrophobic interactions}}Aversive force that results from the inability of molecules to interact effectively with an aqueous environment
Published	02/20/2025	Each water molecule can make a total of {{c1::4 hydrogen}} bonds in a regular crystal lattice (ice)
Published	02/20/2025	Water has a {{c2::high::high/low}} {{c1::dielectric constant}}, or ability to insulate oppositely charged molecules from mutual electrostatic attracti…
Published	02/20/2025	A high dielectric constant {{c1::decreases::increases/decreases}} the force of attraction between molecules
Published	02/20/2025	{{c1::The hydrophobic effect}}The observed tendency of {{c2::nonpolar}} substances to aggregate in aqueous solution
Published	02/20/2025	Increasing {{c1::entropy}} of the system drives the hydrophobic effect
Published	02/20/2025	ΔG {{c1::less than}} 0, reaction is {{c2::spontaneous}}
Published	02/20/2025	ddd2164a680b4c75b0794ddd60fb7cf4-ao-1
Published	02/20/2025	ddd2164a680b4c75b0794ddd60fb7cf4-ao-2
Published	02/20/2025	If pH {{c1::greater than}} pKa, the group is in the {{c2::conjugate base (deprotonated)}} form
Published	02/20/2025	If pH {{c1::less than}} pKa, the group is in the {{c2::conjugate acid (protonated)}} form
Published	02/20/2025	What pH range is a weak acid most effective as a buffer?{{c1::Near its pKa}}
Published	02/20/2025	{{c1::Polyprotic acids}} can donate more than one proton
Published	02/20/2025	{{c1::True::True/False}} Epithelium is derived from all three germ layers
Published	02/20/2025	{{c1::False::True/False}} Epithelium is highly vascular to provide nutrients to epithelial cells
Published	02/20/2025	The simple squamous epithelium that lines all blood vessels is known as {{c1::endothelium}}
Published	02/20/2025	{{c1::Mesothelium}} is a type of {{c2::simple squamous}} epithelium lining both sides of the {{c3::mesentery}} and {{c3::serosa}}
Published	02/20/2025	6ee6f4823051499ebc651d1034e88c78-ao-1
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Published	02/20/2025	b4002192861541e1b2108bb4fbcfbaf8-ao-1
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Published	02/20/2025	f52e3f4746e54b0a8cf61c50ad2a8d47-ao-1
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Published	02/20/2025	93cc4000d6744611922a3268a4bccb5e-ao-1
Published	02/20/2025	93cc4000d6744611922a3268a4bccb5e-ao-2
Published	02/20/2025	The outermost layers of the wall of the uterine tube is the {{c1::serosa}}, which is composed of {{c2::mesothelium}} and {{c2::a thin layer of connect…
Published	02/20/2025	7eae0ddade25458ebfaefaf02a43a6bd-ao-1
Published	02/20/2025	7eae0ddade25458ebfaefaf02a43a6bd-ao-2
Published	02/20/2025	The simple squamous epithelium that lines the chambers of the heart is {{c1::endocardium}}
Published	02/20/2025	c2d4aa8aa6e54811927b6d62d9929ec0-ao-1
Published	02/20/2025	c2d4aa8aa6e54811927b6d62d9929ec0-ao-2
Published	02/20/2025	{{c1::Simple squamous}} epithelium lines blood and lymphatic vessels, body cavities, and respiratory spaces in the lung
Published	02/20/2025	{{c1::Simple cuboidal}} epithelium lines the small ducts of exocrine glands, kidney tubules, thyroid follicles, and the surface of the ovary
Published	02/20/2025	b923ebf681764ec4aece1060ca5c281f-ao-1
Published	02/20/2025	7f272203a42642689725b32ff00acc2d-ao-1
Published	02/20/2025	{{c1::Simple columnar}} epithelium lines the stomach, small intestine, colon, and the {{c2::gallbladder}}
Published	02/20/2025	6d0a6f2ab2e54b948d5dd1a161b18329-ao-1
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Published	02/20/2025	e0b4614a17f64640bd8f8cdcccab390d-ao-1
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Published	02/20/2025	The simple columnar epithelium of the gallbladder does not have {{c1::a striated border}} or {{c1::goblet cells}} like that of the small intestin…
Published	02/20/2025	50af3d79e79e4c579ec6a0a581f3b4c1-ao-1
Published	02/20/2025	{{c1::Stratified squamous}} epithelium is found liningEpidermisOral cavityEsophagusVagina
Published	02/20/2025	{{c1::Cornified}} epithelium contains a layer of dead, enucleated cells on its surface
Published	02/20/2025	Keratinocytes are tightly bound to each other via {{c1::desmosomes}}
Published	02/20/2025	fc78cd5fa01942cdb15fc87a07851835-ao-1
Published	02/20/2025	4e1d6348e1db413d94bf7d8f7e1c5577-ao-1
Status	Last Update	Fields