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Definition: What is a cell?The cell is the basic unit or building block of living organisms. The cell was first observed and discovered under a microscope by Robert Hooke in 1665. The word “cell” came from Latin, which means “small room.” The cell membrane encloses the content of the cell and separates all biological activities from the outside world. Tiny structural parts inside the cell, called organelles, are involved in various specialized functions to keep the cell alive and active. [In this figure] Left: The compound microscope used by Robert Hooke to discover “cells.” Right: Cell structure of cork illuminated by Robert Hooke in Micrographia, 1665. Definition: What are animals, and what are plants?Animals are multicellular organisms that form the biological kingdom Animalia. They all have characteristics as:
Plants are multicellular organisms of the kingdom Plantae. Their features include:
[In this figure] Tree of living organisms showing the origins of eukaryotes and prokaryotes. Animal cells vs. Plant cells – Key similaritiesAnimal cells and plant cells are eukaryotic cellsBoth animal and plant cells are classified as “Eukaryotic cells,” meaning they possess a “true nucleus.” Compared to “Prokaryotic cells,” such as bacteria or archaea, eukaryotic cells’ DNA is enclosed in a membrane-bound nucleus. These membranes are similar to the cell membrane, which is a flexible film of lipid bilayers. Eukaryotes also have several membrane-bound organelles. Organelles are internal structures responsible for various functions, such as energy production and protein synthesis. Both animals and plants are multicellular organismsBased on the current biological classification, both animals and plants are multicellular organisms, meaning that they consist of more than one cell. Different types of cells in a multicellular organism dedicate to different jobs. There is a gray zone in the current biological classification, called Protista. The Protista, or Protoctista, is a kingdom of simple eukaryotic organisms, usually composed of a single cell or a colony of similar cells. A protist is not an animal, plant, or fungus. However, some protists may behave like animals or plants. For example, protozoans are grouped as animal-like protists, and algae are referred to as mixed groups of plant-like protists. Interestingly, some species confuse the scientists by exhibiting both characteristics of animal and plant. The best example is Euglena, a single-celled microorganism that can harvest solar energy by its chloroplasts like a plant, but also swim around using its flagellum like an animal. Animal cells and plant cells share many organelles in commonAnimal cell structures[In this figure] Diagram of an animal cell. Plant cell structures[In this figure] Diagram of a plant cell. Cell organelles and their functionsLike different organs within the body, animal and plant cells include various components known as cell organelles that perform different functions to sustain the cells as a whole. These organelles include: Cell featureFunctionMembrane-bound organelle (Yes or No)Present in Animal (A) or Plant (P) cellsNucleusA central place to store the genetic information (genome) of the cell.YA, PNucleolusA core inside the eukaryotic nucleus where ribosomal RNA is produced.NA, PNuclear envelopeThe membrane separated the nucleus and cytoplasm.YA, PCytoplasmThe part of the cell between the nuclear envelope and plasma membrane.NA, PCytosolGel-like cellular fluid filled up the intracellular space.NA, PCell membraneAlso known as the plasma membrane, a phospholipid bilayer that surrounds the entire cell and encompasses the organelles within.YA, PCell wallProvides structure and protection from the outside environment. Only in plants and fungi.NPVacuoleA membrane-bound organelle that contains a mass of fluid and functions as a storage space. Large central vacuole is only existing in plant cells.YPChloroplastAn organelle that conducts photosynthesis and produces energy for the plant cells.YPAmyloplastAn organelle that produces and stores starch; commonly found in vegetative plant tissues.YPCytoskeletonA dynamic network responsive for cell movement, division, and intracellular transportationNA, PMitochondrionAlso known as the powerhouse of the cell, it is responsible for energy production.YA, PRibosomeThe site for protein synthesis.NA, PEndoplasmic reticulumAn internal membrane that forms branching networks and coordinates protein synthesis.YA, PGolgi apparatusA membrane-bounded organelle dedicated to protein maturation and transportation.YA, PLysosomeAn organelle full of digestive enzymes and works like a recycling center in the cell.YA, PPeroxisomeAn organelle responsible for the fatty acid breakdown and other redox reactions.YA, PAnimal cells vs. Plant cells – major differences[In this figure] The cell anatomy of animal and plant cells. The most striking difference between animal cells and plant cells is that plant cells have three unique organelles: central vacuole, cell wall, and chloroplast. We summarize the major differences between plant and animal cells in this table. CharacteristicsPlant cellsAnimal cellsClassificationEukaryotic cellEukaryotic cellCell sizeUsually larger in sizeSmaller in sizeCell shapeA rectangular fixed shapeA round irregular shapeMovementLimited movementCell can move around by changing its shapePlasma membranePresent; don’t contain cholesterolPresent; contain cholesterolCell wallComposed of a cell wall made up of celluloseNo cell wallVacuoleHave one, large, permanent, central vacuole taking up to 90% of cell volumeOne or more small, temporary vacuoles (much smaller than plant cells)TonoplastTonoplast present around vacuoleAbsentChloroplastContain chloroplasts to perform photosynthesisNo chloroplastPlastidPresent; various typesAbsentNucleusNucleus present along the peripheral of the cellNucleus present at the center of the cellCentriole/ CentrosomeOnly present in lower plant forms (e.g. chlamydomonas)Present in all animal cellsGolgi apparatusHave several simpler GolgiHave a single highly complex GolgiMitochondrionPresentPresentEndoplasmic Reticulum/RibosomePresentPresentLysosomeMaybe present; vacuole also function as a degrading sitePresentPeroxisomePresent; specialized as glyoxysomesPresentPlasmodesmataPresentAbsentFlagellumPresent in some cells (e.g. sperm of bryophytes and pteridophytes, cycads and Ginkgo)Present in some cells (e.g. mammalian sperm cells)CiliaAbsentPresent in some cellsStorageReserve food in the form of starchReserve food in the form of glycogenMitosisSpindle formation is anastral (no aster)Spindle formation is amphiastral (two asters)Energy sourceAutotrophHeterotrophCell WallA difference between plant cells and animal cells is that plant cells have a rigid cell wall that surrounds the cell membrane. Animal cells do not have a cell wall. As a result, most animal cells are round and flexible, whereas most plant cells are rectangular and rigid. When looking under a microscope, the cell wall is an easy feature to distinguish plant cells. [In this figure] Cell wall provides additional protective layers outside the cell membrane. ChloroplastsPlants are autotrophs, meaning they produce energy from sunlight through the process of photosynthesis. This function depends on the organelles called chloroplasts. Animal cells do not have chloroplasts. In animal cells, energy is produced from food (glucose) via a process of cellular respiration. Cellular respiration occurs in mitochondria in both animal and plant cells. [In this figure] The structure of a chloroplast. PlastidsPlastids are double-membrane organelles that are found in the cells of plants and algae. Plastids are responsible for manufacturing and storing food. Plastids often contain pigments that are used in photosynthesis and different types of pigments can change the color of the cell. Chloroplasts are the most prominent type of plastids. Other plastids, like chromoplasts, gerontoplasts, and leucoplasts, may only occur in certain plant cells. VacuolesAnimal cells have one or more small vacuoles, whereas plant cells have one large central vacuole that can take up to 90% of the cell volume. The function of vacuoles in plants is to store water and maintain the turgidity of the cell. Sometimes, vacuoles in plants also degrade cellular wastes like lysosomes. A layer of membrane, called tonoplast, surrounds the plant cell’s central vacuole. Due to the large size of the central vacuole, it pushes all contents of the cell’s cytoplasm and organelles against the cell wall. This may facilitate the cytoplasmic streaming of chloroplasts. [In this figure] Drawing of a plant cell showing a large vacuole. [In this figure] Cytoplasmic streaming in plant cells. CentrioleCentrioles are paired barrel-shaped organelles (centrosomes) located in the cytoplasm of animal cells near the nuclear envelope. All animal cells have centrioles, whereas only some lower plant forms have centrioles in their cells (e.g., the male gametes of charophytes, bryophytes, seedless vascular plants, cycads, and ginkgo). [In this figure] Illustration and electron micrography of the centrosome. LysosomeThe lysosomes are small organelles that work as the recycling center in the cells. They are membrane-bounded spheres full of digesting enzymes. Lysosomes were considered to be exclusive to animal cells. However, this statement became controversial. Plant vacuoles are found to be much more diverse in structure and function than previously thought. Some vacuoles contain their own hydrolytic enzymes and perform the classic lysosomal activity like animals’. PeroxisomePeroxisomes can be found in the cytoplasm of all eukaryotic cells, including both animal and plant cells. In plants, peroxisomes carry out two additional important roles. [In this figure] Photorespiration involves a complex network of enzyme reactions that exchange metabolites between chloroplasts, leaf peroxisomes, and mitochondria. PlasmodesmataPlasmodesmata are microscopic channels that traverse the cell walls of plant cells and some algal cells, enabling transport and communication between them. Animal cells do not have plasmodesmata but have other ways to communicate between cells, like gap junctions or tunneling nanotubes (TNTs). [In this figure] Plasmodesmata allow molecules to travel between plant cells through the symplastic pathway. Flagella and CiliaTwo cellular structures that allow the movement of animal cells, flagella, and cilia (singular: flagellum and cilium), are absent in plant cells. Sperm cells are an excellent example of animal cells possessing flagella. Sperms use flagella for their movement toward the eggs. Cilia, on the other hand, act more like short hairs moving back and forth across the outside of the cell. [In this figure] Cellular structures that allow the movement of animal cells: Flagellum (the tail of sperm) and Cilia (the waving hairs on the surface of airway cells). Looking at animal and plant cells under a microscopeYou can easily find samples of animal and plant cells to look at under a microscope. See below to explore more: Cheek cells (more specifically, epithelial cells) form a protective barrier lining your mouth. All you need to do is to gently scrape the inside of the mouth using a clean, sterile cotton swab and then smear the swab on a microscopic slide to get the cells onto the slide. You can see our step-by-step guide, “Look at your cheek cells.“ [In this figure] Cheek cells stained with Methylene Blue. [In this figure] Microscopic view of onion skin. You can follow our step-by-step guide, “Look at the Plant Cells” to prepare your own onion skin slide. Q&A: frequently asked questions are quickly answered hereWhat do plant cells have, but animal cells do not?In brief, the most striking difference between animal cells and plant cells is that plant cells have three unique organelles: central vacuole, cell wall, and chloroplast. What do animal cells have, but plant cells do not?Animal cells have centrioles/centrosomes that most plant cells don’t. Some animal cells also have flagella and cilia, which are absent in plant cells. What does a plant cell look like?Due to the cell wall, many plant cells have a rectangular fixed shape. [in this figure] The illustration of the cell wall. Do plant cells have cell membranes?Yes, plant cells have a layer of cell membrane underneath the cell wall. The cell membrane detaches from the cell wall under a hypertonic condition. [In this figure] Turgor pressure on plant cells diagram. Do plant cells have mitochondria?Yes, both animal and plant cells have mitochondria, but only plant cells have chloroplasts. In plant cells, chloroplasts absorb energy from sunlight and store it in the form of sugar (a process called photosynthesis). In contrast, mitochondria use chemical energy stored in sugars as fuels to generate ATP (called cellular respiration). Like animal cells, plant cells use ATP to drive other cellular activities. [In this figure] The carbon cycle showing how energy flows between chloroplasts and mitochondria to benefit the ecosystem. Do animal cells have a cell wall?No, animal cells do not have a cell wall so they can freely change their cell shapes. Do plant cells have centrioles?No, plant cells do not have centrioles for their mitosis except for some lower plant forms. Do plants have lysosomes?The presence of lysosomes in plant cells is under debate. Vacuoles in plant cells can fulfill the role of animal lysosomes. Do plant cells have ribosomes?Yes, plant cells have both free and endoplasmic reticulum-bound ribosomes for protein synthesis. What do all cells have in common?All cells (prokaryotic or eukaryotic; animal or plant) share four common components: (1) Plasma membrane, an outer covering that separates the cell’s interior from its surrounding environment. (2) Cytoplasm, consisting of a jelly-like region within the cell in which other cellular components are found. (3) DNA, the genetic material of the cell. (4) Ribosomes, particles that synthesize proteins. All cells on Earth have similar chemical compositions and meet the description of cell theory. The central dogma of molecular biology as “DNA makes RNA, and RNA makes protein” is also true in all cells. Are plants eukaryotic?Yes, both plants and animals are eukaryotes and have membrane-bound nuclei and organelles. Prokaryotic cells are bacteria and archaea. Do animal cells have chloroplasts?No, animals do not have chloroplasts, so they can not produce their food. However, some animals may borrow chloroplasts and live like a plant. Elysia chlorotica (common name the eastern emerald elysia) is one of the “solar-powered sea slugs,” utilizing solar energy to generate energy. The sea slug eats and steals chloroplasts from the alga Vaucheria litorea. The sea slugs then incorporate the chloroplasts into their own digestive cells, where the chloroplasts continue to photosynthesize for up to nine months. [In this figure] Elysia cholorotica, a sea slug found off the U.S. East Coast, can steal photosynthetic chloroplasts from algae. Do plant cells have cytoskeleton?Yes, both plant and animal cells have a similar cytoskeleton. Constrained by the cell wall, the plant cell’s cytoskeleton does not allow a dramatic change of the cell shape. However, the cytoskeleton network of actin filaments, microtubules, and intermediate filaments generate shape, structure, and organization to the cytoplasm of the plant cell. The cytoskeleton also drives the cytoplasmic streaming in plant cells. How does cytokinesis differ in plant and animal cells?Cytokinesis occurs in mitosis and meiosis in both plant and animal to separate the parent cell from daughter cells. What are 5 similarities between plant cells and animal cells?The following are the similarities between plants and animals:. For the process of reproduction both possess reproductive organs.. Both are living and at some point in life, they both die.. Both species possess DNA and RNA.. Both species possess energy-transforming and utilizing systems.. What are the similarities of plant and animal cells?Structurally, plant and animal cells are very similar because they are both eukaryotic cells. They both contain membrane-bound organelles such as the nucleus, mitochondria, endoplasmic reticulum, golgi apparatus, lysosomes, and peroxisomes. Both also contain similar membranes, cytosol, and cytoskeletal elements.
What are the 5 differences between plant and animal cells?
What are 10 similarities between plant and animal? They both are living organisms.. They make/catch their own food.. They both have characters of living things.. They are made up of cells.. |