Lysosome hi-res stock photography and images

Autophagy. Computer illustration of a lysosome (orange) fusing with an autophagosome (large sphere). Autophagy (autophagocytosis) is the natural mechanism that destroys unnecessary or dysfunctional cellular components and recycles their materials. The target components are first isolated from the rest of the cell within the double-membraned autophagosome. This then fuses with a lysosome, the contents of which degrade the target components. The 2016 Nobel Prize in Physiology or Medicine was awarded to Japanese cell biologist Yoshinori Ohsumi for his discoveries of mechanisms for autophagy. Stock Photo

RFHN2KHX–Autophagy. Computer illustration of a lysosome (orange) fusing with an autophagosome (large sphere). Autophagy (autophagocytosis) is the natural mechanism that destroys unnecessary or dysfunctional cellular components and recycles their materials. The target components are first isolated from the rest of the cell within the double-membraned autophagosome. This then fuses with a lysosome, the contents of which degrade the target components. The 2016 Nobel Prize in Physiology or Medicine was awarded to Japanese cell biologist Yoshinori Ohsumi for his discoveries of mechanisms for autophagy.

Conceptual image of lysosome. Stock Photo

RFD9NWJX–Conceptual image of lysosome.

Lysosome. Anatomy of the Lysosome: Hydrolytic enzymes, Membrane and transport proteins. organelle use the enzymes to break down and digest food Stock Vector

RF2FM2X2C–Lysosome. Anatomy of the Lysosome: Hydrolytic enzymes, Membrane and transport proteins. organelle use the enzymes to break down and digest food

Anatomy of the Lysosome: Hydrolytic enzymes, Membrane and transport proteins colorful illustration Stock Photo

RF2H354DX–Anatomy of the Lysosome: Hydrolytic enzymes, Membrane and transport proteins colorful illustration

lysosome anatomy. Hydrolytic enzymes, Membrane and transport proteins. This organelle use the enzymes to break-down virus particles or bacteria Stock Vector

RF2DHY2JP–lysosome anatomy. Hydrolytic enzymes, Membrane and transport proteins. This organelle use the enzymes to break-down virus particles or bacteria

RF2JKPF8G–3D Anatomy of lysosome

lysosome anatomy. structure of organelle that found in animal cell. vector diagram Stock Vector

RF2MJFXA5–lysosome anatomy. structure of organelle that found in animal cell. vector diagram

Lysosome cross-sectional anatomy Stock Photo

RF2JKPF8B–Lysosome cross-sectional anatomy

autophagy of mitochondria. Diagram of the process of autophagy from Forming a membrane and autophagosome to fuse phagosome and lysosome Stock Vector

RF2M8GY3J–autophagy of mitochondria. Diagram of the process of autophagy from Forming a membrane and autophagosome to fuse phagosome and lysosome

Biological Anatomy of Lysosome, Detailed anatomy of lysosome, lysosomal structure, suicide bags of the cell, suicidal bags of an animal cell anatomy Stock Vector

RF2GDKTW2–Biological Anatomy of Lysosome, Detailed anatomy of lysosome, lysosomal structure, suicide bags of the cell, suicidal bags of an animal cell anatomy

Lysosome. appearance, exterior and interior view. Cross section and Anatomy of the Lysosome: Hydrolytic enzymes, Membrane and transport proteins Stock Vector

RF2HWBX1D–Lysosome. appearance, exterior and interior view. Cross section and Anatomy of the Lysosome: Hydrolytic enzymes, Membrane and transport proteins

Cell sectional view with all the main organelles: nucleus, reticulum. Stock Photo

RF2JKWN3M–Cell sectional view with all the main organelles: nucleus, reticulum.

Anatomy of human cell. All organelles: Nucleus, Ribosome, Rough endoplasmic reticulum, Golgi apparatus, mitochondrion, cytoplasm, lysosome, Centrosome Stock Vector

RF2H3G9N3–Anatomy of human cell. All organelles: Nucleus, Ribosome, Rough endoplasmic reticulum, Golgi apparatus, mitochondrion, cytoplasm, lysosome, Centrosome

Medical illustration of liver cell structure. Stock Vector

RF2J4MKXP–Medical illustration of liver cell structure.

lysosome Function. multitask lysosome from intracellular digestion, and autophagy to antigen presentation, bone matrix resorption, and plasma membrane Stock Vector

RF2DHY2DY–lysosome Function. multitask lysosome from intracellular digestion, and autophagy to antigen presentation, bone matrix resorption, and plasma membrane

Medical illustration of the structure and function of a macrophage, while engulfing an old red blood cell and bacteria, showing how they are captured Stock Vector

RF2C4P4HA–Medical illustration of the structure and function of a macrophage, while engulfing an old red blood cell and bacteria, showing how they are captured

Autophagy process. From forms a double membrane and autophagosome formation to Autophagosome fuses with a lysosome and Degradation of cellular compone Stock Vector

RF2X02F5G–Autophagy process. From forms a double membrane and autophagosome formation to Autophagosome fuses with a lysosome and Degradation of cellular compone

Microscopic view of animal cell. Stock Photo

RFE046DW–Microscopic view of animal cell.

Lysosome anatomy. Cross section of a cell organelle. Close-up of a Lipid bilayer membrane, hydrolytic enzymes, transport proteins. Autophagy. Vector i Stock Vector

RF2WP31T1–Lysosome anatomy. Cross section of a cell organelle. Close-up of a Lipid bilayer membrane, hydrolytic enzymes, transport proteins. Autophagy. Vector i

RFHN2KHT–Autophagy. Computer illustration of a lysosome (orange) fusing with an autophagosome (large sphere). Autophagy (autophagocytosis) is the natural mechanism that destroys unnecessary or dysfunctional cellular components and recycles their materials. The target components are first isolated from the rest of the cell within the double-membraned autophagosome. This then fuses with a lysosome, the contents of which degrade the target components. The 2016 Nobel Prize in Physiology or Medicine was awarded to Japanese cell biologist Yoshinori Ohsumi for his discoveries of mechanisms for autophagy.

Plant cell. Structure and Anatomy. Close-up of layers of a cell wall. Vector illustration Stock Vector

RF2X91PNJ–Plant cell. Structure and Anatomy. Close-up of layers of a cell wall. Vector illustration

Microscopic view of cell and virus. Stock Photo

RFE81B10–Microscopic view of cell and virus.

Peroxisome anatomy. Cross section of a cell organelle. Close-up of a Lipid bilayer Plasma membrane, Crystalline core, transport proteins. Vector illus Stock Vector

RF2WP502P–Peroxisome anatomy. Cross section of a cell organelle. Close-up of a Lipid bilayer Plasma membrane, Crystalline core, transport proteins. Vector illus

Structure of human cell, anatomy of cell, cellular environment, cellular concept with organelle: nucleus, membrane, mitochondria, Golgi apparatus 3d Stock Photo

RF2DGANTR–Structure of human cell, anatomy of cell, cellular environment, cellular concept with organelle: nucleus, membrane, mitochondria, Golgi apparatus 3d

Structure of a Golgi complex. Close-up of Golgi apparatus anatomy. Cross section of cell organelle. isometric flat vector illustration Stock Vector

RF2WH6KB2–Structure of a Golgi complex. Close-up of Golgi apparatus anatomy. Cross section of cell organelle. isometric flat vector illustration

3d rendering red blood cells and white blood cells inside of blood vessel Stock Photo

RF2WJ0G09–3d rendering red blood cells and white blood cells inside of blood vessel

Autophagy steps. Cellular recycling. Schematic diagram. Natural mechanism in the cell that removes unnecessary components. Vector illustration Stock Vector

RF2WFTP7D–Autophagy steps. Cellular recycling. Schematic diagram. Natural mechanism in the cell that removes unnecessary components. Vector illustration

Phagocytosis is the process in which a cell engulfs a particle and digests it Stock Photo

RF2PHMXDG–Phagocytosis is the process in which a cell engulfs a particle and digests it

Cell organelles. Structure and anatomy of a animal cell. realistic cell on a white background. Vector illustration. Poster for education Stock Vector

RF2R3HE7M–Cell organelles. Structure and anatomy of a animal cell. realistic cell on a white background. Vector illustration. Poster for education

RF2JP16EP–Lysosomes Structure

RF2JKWN3P–Cell sectional view with all the main organelles: nucleus, reticulum.

Phagocytosis. macrophage absorption of bacteria. Stages of mechanism of the immune response from entrapment or endocytosis to phagosome formation Stock Vector

RF2JE13N7–Phagocytosis. macrophage absorption of bacteria. Stages of mechanism of the immune response from entrapment or endocytosis to phagosome formation

Structure and function of a macrophage Category Science Stock Photo

RF2J7JTE8–Structure and function of a macrophage Category Science

Animal cell anatomy. Structure and organelles of Eukaryotic cell. Vector poster for education. illustration Stock Vector

RF2HKPD60–Animal cell anatomy. Structure and organelles of Eukaryotic cell. Vector poster for education. illustration

Title Reactions relate to the free energy of the involved molecules Stock Photo

RF2G3M45B–Title Reactions relate to the free energy of the involved molecules

Anatomy of plant cell. All organelles: Nucleus, Ribosome, Rough endoplasmic reticulum, Golgi apparatus, mitochondrion, amyloplast, vacuole Stock Vector

RF2H3G9NN–Anatomy of plant cell. All organelles: Nucleus, Ribosome, Rough endoplasmic reticulum, Golgi apparatus, mitochondrion, amyloplast, vacuole

Endocytosis, exocytosis. The cell transports proteins into the cell Stock Photo

RF2G3M5NB–Endocytosis, exocytosis. The cell transports proteins into the cell

Animal cell anatomy. Organelles and structure of eukaryotic cell. Vector diagram. color can be changed easily Stock Vector

RF2H3G9NJ–Animal cell anatomy. Organelles and structure of eukaryotic cell. Vector diagram. color can be changed easily

RFHN2KHR–Autophagy. Computer illustration of a lysosome (orange) fusing with an autophagosome (large sphere). Autophagy (autophagocytosis) is the natural mechanism that destroys unnecessary or dysfunctional cellular components and recycles their materials. The target components are first isolated from the rest of the cell within the double-membraned autophagosome. This then fuses with a lysosome, the contents of which degrade the target components. The 2016 Nobel Prize in Physiology or Medicine was awarded to Japanese cell biologist Yoshinori Ohsumi for his discoveries of mechanisms for autophagy.

Autophagy steps. Schematic diagram. Natural mechanism in the cell that removes unnecessary components. Vector illustration Stock Vector

RF2DHY2G6–Autophagy steps. Schematic diagram. Natural mechanism in the cell that removes unnecessary components. Vector illustration

The structure of Animal cell Stock Photo

RF2MBW7JG–The structure of Animal cell

Prokaryote vs Eukaryote. illustration of eukaryotic and prokaryotic cell with text. Differences between Prokaryotic and Eukaryotic cells. vector Stock Vector

RF2DHY2RG–Prokaryote vs Eukaryote. illustration of eukaryotic and prokaryotic cell with text. Differences between Prokaryotic and Eukaryotic cells. vector

RF2G41C9X–Plant cell scheme. Vector

difference between exocytosis and endocytosis. The cell transports molecules into and from the cell. Vector illustration for science and education Stock Vector

RF2DHY2JR–difference between exocytosis and endocytosis. The cell transports molecules into and from the cell. Vector illustration for science and education

RF2WJ0G0D–3d rendering red blood cells and white blood cells inside of blood vessel

Anatomical structure of biological animal cell with organelles Stock Photo

RFWN8MNF–Anatomical structure of biological animal cell with organelles

Isolated multilamellar vesicle or multilayered liposome in the black background, 3D rendering. Stock Photo

RF2T71MD9–Isolated multilamellar vesicle or multilayered liposome in the black background, 3D rendering.

Cell Structure on blue background. 3d illustration Stock Photo

RF2A3KJJR–Cell Structure on blue background. 3d illustration

Cell anatomy. Cell structure and organelles Nucleus, Ribosomes, Endoplasmic reticulum, Golgi apparatus, mitochondrion, cytoplasm, lysosome. Close-up o Stock Vector

RF2X6P0A4–Cell anatomy. Cell structure and organelles Nucleus, Ribosomes, Endoplasmic reticulum, Golgi apparatus, mitochondrion, cytoplasm, lysosome. Close-up o

RF2JKWN8A–Cell sectional view with all the main organelles: nucleus, reticulum.

3D image of Colchicine skeletal formula - molecular chemical structure of gout medication isolated on white background Stock Photo

RF2KFJ22X–3D image of Colchicine skeletal formula - molecular chemical structure of gout medication isolated on white background

RMCT0C2P–Cell, drawing

Myeloperoxidase, a peroxidase whcih resides in the human nucleus and lysosome and acts as a defense response to oxidative stress, preventing apoptosis Stock Photo

RFW7HRDC–Myeloperoxidase, a peroxidase whcih resides in the human nucleus and lysosome and acts as a defense response to oxidative stress, preventing apoptosis

Multispectral confocal microscopy of a fibroblast cell providing fluorescent proteins targeted to organelles: lysosomes, mitochondria, endoplast reticulum, peroxisomes, Golgi and lipid droplets. Scale bar, 10 'm. Stock Photo

RM2JKFTDJ–Multispectral confocal microscopy of a fibroblast cell providing fluorescent proteins targeted to organelles: lysosomes, mitochondria, endoplast reticulum, peroxisomes, Golgi and lipid droplets. Scale bar, 10 'm.

Organelles inside Eukaryote, focus on lysosome - 3d illustration Stock Photo

RF2T4PT22–Organelles inside Eukaryote, focus on lysosome - 3d illustration

Transmission electron micrograph (TEM) of lysosomes. A lysosome is a membrane-bound organelle found in nearly all animal cells. They are spherical vesicles which contain hydrolytic enzymes that can break down virtually all kinds of biomolecules (waste materials and cellular debris). The name lysosome derives from the Greek words lysis, to separate, and soma, body. They are frequently nicknamed 'suicide-bags' or 'suicide-sacs' by cell biologists due to their role in autolysis, more commonly known as self-digestion, refers to the destruction of a cell through the action of its own enzymes. Magni Stock Photo

RM2BE0H0Y–Transmission electron micrograph (TEM) of lysosomes. A lysosome is a membrane-bound organelle found in nearly all animal cells. They are spherical vesicles which contain hydrolytic enzymes that can break down virtually all kinds of biomolecules (waste materials and cellular debris). The name lysosome derives from the Greek words lysis, to separate, and soma, body. They are frequently nicknamed 'suicide-bags' or 'suicide-sacs' by cell biologists due to their role in autolysis, more commonly known as self-digestion, refers to the destruction of a cell through the action of its own enzymes. Magni

RF2FKNFX9–Organelles inside Eukaryote, focus on lysosome - 3d illustration

RFHN2KHW–Autophagy. Computer illustration of a lysosome (orange) fusing with an autophagosome (large sphere). Autophagy (autophagocytosis) is the natural mechanism that destroys unnecessary or dysfunctional cellular components and recycles their materials. The target components are first isolated from the rest of the cell within the double-membraned autophagosome. This then fuses with a lysosome, the contents of which degrade the target components. The 2016 Nobel Prize in Physiology or Medicine was awarded to Japanese cell biologist Yoshinori Ohsumi for his discoveries of mechanisms for autophagy.

3D model of a eukaryotic cell Stock Photo

RMCTPA32–3D model of a eukaryotic cell

Organelles inside an Eukaryote or eukaryotic cell. 3d illustration Stock Photo

RF2TCJ05E–Organelles inside an Eukaryote or eukaryotic cell. 3d illustration

3d rendered illustration of a human cell cross-section Stock Photo

RFTX7EM0–3d rendered illustration of a human cell cross-section

Phagocytosis . Step by step process of macrophage is swallowing and killing microbes . Isolated white background . Medical immunity concept . 3D rende Stock Photo

RF2JGJC84–Phagocytosis . Step by step process of macrophage is swallowing and killing microbes . Isolated white background . Medical immunity concept . 3D rende

RFE81B11–Microscopic view of cell.

RF2JGJC87–Phagocytosis . Step by step process of macrophage is swallowing and killing microbes . Isolated white background . Medical immunity concept . 3D rende

Microscopic view of animal cell nucleus. Stock Photo

RFE046D2–Microscopic view of animal cell nucleus.

RF2T71MD5–Isolated multilamellar vesicle or multilayered liposome in the black background, 3D rendering.

Cell showing the Golgi apparatus, mitochondria and endoplasmic reticulum, and lysosomes. Stock Photo

RF2GK004J–Cell showing the Golgi apparatus, mitochondria and endoplasmic reticulum, and lysosomes.

Various steps of cellular division. 3D illustration. Stock Photo

RFP1JWEP–Various steps of cellular division. 3D illustration.

Medical illustration of elements of human cell Stock Vector

RFRB4J8Y–Medical illustration of elements of human cell

Internal structure of a plant cell. Digital illustration. Clipping path included. Stock Photo

RFMBGFH4–Internal structure of a plant cell. Digital illustration. Clipping path included.

Cell with dark neon light effect, 3d rendering. 3D illustration. Stock Photo

RF2WN3AJJ–Cell with dark neon light effect, 3d rendering. 3D illustration.

Internal structure of an animal cell. Digital illustration. Clipping path included. Stock Photo

RFP1JWBR–Internal structure of an animal cell. Digital illustration. Clipping path included.

Internal structure of an animal cell, 3d rendering. Section view. Computer digital drawing. Stock Photo

RF2EYY5M3–Internal structure of an animal cell, 3d rendering. Section view. Computer digital drawing.

Mitochondria. Illustration explain human body received glucose and oxygen such as eating or drinking after that the cell system changes glucose Stock Vector

RF2C80XH1–Mitochondria. Illustration explain human body received glucose and oxygen such as eating or drinking after that the cell system changes glucose

RM2BE0H10–Transmission electron micrograph (TEM) of lysosomes. A lysosome is a membrane-bound organelle found in nearly all animal cells. They are spherical vesicles which contain hydrolytic enzymes that can break down virtually all kinds of biomolecules (waste materials and cellular debris). The name lysosome derives from the Greek words lysis, to separate, and soma, body. They are frequently nicknamed 'suicide-bags' or 'suicide-sacs' by cell biologists due to their role in autolysis, more commonly known as self-digestion, refers to the destruction of a cell through the action of its own enzymes. Magni

Vector cartoon illustration for study in school. Human somatic cells: neuron, erythrocyte, epithelial cell, muscle cell. Stock Vector

RFT7HJ4J–Vector cartoon illustration for study in school. Human somatic cells: neuron, erythrocyte, epithelial cell, muscle cell.

RFHN2KHP–Autophagy. Computer illustration of a lysosome (orange) fusing with an autophagosome (large sphere). Autophagy (autophagocytosis) is the natural mechanism that destroys unnecessary or dysfunctional cellular components and recycles their materials. The target components are first isolated from the rest of the cell within the double-membraned autophagosome. This then fuses with a lysosome, the contents of which degrade the target components. The 2016 Nobel Prize in Physiology or Medicine was awarded to Japanese cell biologist Yoshinori Ohsumi for his discoveries of mechanisms for autophagy.

RMCTPA2H–3D model of a eukaryotic cell

RF2R2J7X3–Lysosome, illustration

RFTX7ER0–3d rendered illustration of a human cell cross-section

Cartoon vector illustration of structure of animal cell. Illustration showing the animal cell anatomy Stock Vector

RFT7HJ41–Cartoon vector illustration of structure of animal cell. Illustration showing the animal cell anatomy

Human cell anatomy. Structure of a eukaryotic cell. All organelles: Nucleus, Ribosome, Rough endoplasmic reticulum, Golgi apparatus, mitochondrion, cy Stock Vector

RF2WK7P0N–Human cell anatomy. Structure of a eukaryotic cell. All organelles: Nucleus, Ribosome, Rough endoplasmic reticulum, Golgi apparatus, mitochondrion, cy

RFT7HJ42–Cartoon vector illustration of structure of animal cell. Illustration showing the animal cell anatomy

RFE046E2–Microscopic view of animal cell.

Animal cell anatomy. vector diagram. The structure of a human's cell with labeled parts. cross section of a Eukaryotic cell. Illustration for Biology, Stock Vector

RF2FM2WYT–Animal cell anatomy. vector diagram. The structure of a human's cell with labeled parts. cross section of a Eukaryotic cell. Illustration for Biology,

RF2GK5R37–Cell showing the Golgi apparatus, mitochondria and endoplasmic reticulum, and lysosomes.

Plant cell anatomy structure. Close-up of Organelles of a plant cell. Educational infographic. Vector illustration Stock Vector

RF2FM2TWC–Plant cell anatomy structure. Close-up of Organelles of a plant cell. Educational infographic. Vector illustration

RMCT5EPB–CELL, DRAWING

Plant cell structure. vector diagram. anatomy of a biological cell with labeled parts. cross section of a plant cell. Illustration for education Stock Vector

RF2FM2W1B–Plant cell structure. vector diagram. anatomy of a biological cell with labeled parts. cross section of a plant cell. Illustration for education

Animal human cell structure educational science. Microscope 3d eukaryotic nucleus organelle medicine technology analysis. Glowing colored biology poster template isolated line vector illustration Stock Vector

RFM3NH2H–Animal human cell structure educational science. Microscope 3d eukaryotic nucleus organelle medicine technology analysis. Glowing colored biology poster template isolated line vector illustration

Plant Cell and Animal cell structure. cross section and anatomy of cell. Biology Chart. Vector illustration on a white background. detailed diagram Stock Vector

RF2DHY2W8–Plant Cell and Animal cell structure. cross section and anatomy of cell. Biology Chart. Vector illustration on a white background. detailed diagram

RF2EYY69H–Internal structure of an animal cell, 3d rendering. Section view. Computer digital drawing.

Anatomy of animal cell. Human cell structure. All organelles: Nucleus, Ribosome, Rough endoplasmic reticulum, Golgi apparatus, mitochondrion, cytoplas Stock Vector

RF2WH28AB–Anatomy of animal cell. Human cell structure. All organelles: Nucleus, Ribosome, Rough endoplasmic reticulum, Golgi apparatus, mitochondrion, cytoplas

RM2BE0H0N–Transmission electron micrograph (TEM) of lysosomes. A lysosome is a membrane-bound organelle found in nearly all animal cells. They are spherical vesicles which contain hydrolytic enzymes that can break down virtually all kinds of biomolecules (waste materials and cellular debris). The name lysosome derives from the Greek words lysis, to separate, and soma, body. They are frequently nicknamed 'suicide-bags' or 'suicide-sacs' by cell biologists due to their role in autolysis, more commonly known as self-digestion, refers to the destruction of a cell through the action of its own enzymes. Magni