Embryonic stem cells hi-res stock photography and images - Page 2

Human embryonic stem cells, computer illustration. Stock Photo

RFPJKA6G–Human embryonic stem cells, computer illustration.

Scientific research of nuclear transfer being carried out on several embryonic stem cells in petri dish Stock Photo

RF2E4JYR4–Scientific research of nuclear transfer being carried out on several embryonic stem cells in petri dish

Embryonic stem cell colony , Cellular therapy and Regeneration , Disease treatment Stock Photo

RFK8X03D–Embryonic stem cell colony , Cellular therapy and Regeneration , Disease treatment

Human cell or embryonic stem cell medical concept Stock Photo

RF2PMG633–Human cell or embryonic stem cell medical concept

Human Embryonic Stem Cells, LM Stock Photo

RMHRJJ5W–Human Embryonic Stem Cells, LM

Human cells under a microscope. Research of stem cells. Cellular Therapy. 3d illustration on a light background Stock Photo

RF2PYMA10–Human cells under a microscope. Research of stem cells. Cellular Therapy. 3d illustration on a light background

3d rendering of division of stem cells, which are unspecialized cells that can develop into different types of cells. The stem cells are shown as sphe Stock Photo

RF2WC92EJ–3d rendering of division of stem cells, which are unspecialized cells that can develop into different types of cells. The stem cells are shown as sphe

Stem cells. Regenerative medicine. Using stem cells to treat disease. Vector illustration Stock Vector

RF2T2MBK2–Stem cells. Regenerative medicine. Using stem cells to treat disease. Vector illustration

Confocal Fluorescence Microscopy of CRISPR generated knockout cells. CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) gene editing Stock Photo

RMRY2G84–Confocal Fluorescence Microscopy of CRISPR generated knockout cells. CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) gene editing

Nuclear transfer being carried out on several embryonic stem cells Stock Photo

RF2E26P9J–Nuclear transfer being carried out on several embryonic stem cells

Therapeutic cloning: how to obtain compatible spare organs for transplants. Stock Photo

RF2JKWT52–Therapeutic cloning: how to obtain compatible spare organs for transplants.

cloning microinjection of human embryonal stem cells ES cells into egg cell ovum Stock Photo

RFAXNBWN–cloning microinjection of human embryonal stem cells ES cells into egg cell ovum

RMCT52RH–STEM CELL, DRAWING

Lab assistant working with Adult Stem Cells Stock Photo

RMCT141K–Lab assistant working with Adult Stem Cells

Embryonic stem cells or growth, rehabilitation and treatment of diseases, 3D illustrations Stock Photo

RFTA7YR6–Embryonic stem cells or growth, rehabilitation and treatment of diseases, 3D illustrations

And quotWhy files' 2015 Cool Science Image Contest winning photo by Scott Vermilyea, Neuroscience Training Program, School of Medicine and Public Health and Scott Guthrie Undergraduate Neurobiology, with SCRMC members Ted Golos and Marina Emborg, professors at the School of Medicine and Public Health and Wisconsin National Primate Research Center. Golos is also a faculty member at the School of Veterinary Medicine. Stock Photo

RM2JKFTET–And quotWhy files' 2015 Cool Science Image Contest winning photo by Scott Vermilyea, Neuroscience Training Program, School of Medicine and Public Health and Scott Guthrie Undergraduate Neurobiology, with SCRMC members Ted Golos and Marina Emborg, professors at the School of Medicine and Public Health and Wisconsin National Primate Research Center. Golos is also a faculty member at the School of Veterinary Medicine.

Stem cell therapy for pain in osteoarthritis, knees and hips use the healing properties of your own cells, taken from bone marrow or adipose fat Stock Vector

RF2DHMD5N–Stem cell therapy for pain in osteoarthritis, knees and hips use the healing properties of your own cells, taken from bone marrow or adipose fat

A technician in a laboratory at the Institute for Frontier Medical Sciences, Kyoto University, Japan preparing induced puripotent stem cells for anima Stock Photo

RM2BFDY0A–A technician in a laboratory at the Institute for Frontier Medical Sciences, Kyoto University, Japan preparing induced puripotent stem cells for anima

Fertility Teamwork and invitro fertilization team or Synthetic Model Embryos as a team of researchers holding a Human Embryo Stock Photo

RF2R7MDW8–Fertility Teamwork and invitro fertilization team or Synthetic Model Embryos as a team of researchers holding a Human Embryo

RFPJKA6J–Human embryonic stem cells, computer illustration.

Nuclear transfer being carried out on several embryonic stem cells used in cloning and genetic modification at laboratory Stock Photo

RF2E4JPA4–Nuclear transfer being carried out on several embryonic stem cells used in cloning and genetic modification at laboratory

Stem cell therapy and treatment for painful joints as multicellular organisms for cellular treatment of injury or arthritis illness due to aging. Stock Photo

RF2FKHDGD–Stem cell therapy and treatment for painful joints as multicellular organisms for cellular treatment of injury or arthritis illness due to aging.

Light micrograph of mouse embryonic stem cells Stock Photo

RFDPF7BX–Light micrograph of mouse embryonic stem cells

Research of stem cells. Cells under a microscope. Cellular Therapy. Cell division. 3d illustration on a light background Stock Photo

RF2JBM4XC–Research of stem cells. Cells under a microscope. Cellular Therapy. Cell division. 3d illustration on a light background

Biological illustration of a stem cell, they can develop into many types of cells in the body. They serve as a repair system for the body. Stock Photo

RF2FNRTCW–Biological illustration of a stem cell, they can develop into many types of cells in the body. They serve as a repair system for the body.

RF2WC92EN–3d rendering of division of stem cells, which are unspecialized cells that can develop into different types of cells. The stem cells are shown as sphe

human cells or stem cells - 3D Illustration Stock Photo

RF2X6N4T5–human cells or stem cells - 3D Illustration

RMRY2GGT–Confocal Fluorescence Microscopy of CRISPR generated knockout cells. CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) gene editing

Development of bone in the place of the cartilage model. The growth plate is formed of cartilage consisting of proliferating cartilage cells. Stock Photo

RF2T6W1E5–Development of bone in the place of the cartilage model. The growth plate is formed of cartilage consisting of proliferating cartilage cells.

Illustration of stem cells. Stem cells can differentiate into any other cell type. There are three main types of mammalian stem cell: embryonic stem cells, derived from blastocysts; adult stem cells, which are found in some adult tissues; and cord blood s Stock Photo

RMG15730–Illustration of stem cells. Stem cells can differentiate into any other cell type. There are three main types of mammalian stem cell: embryonic stem cells, derived from blastocysts; adult stem cells, which are found in some adult tissues; and cord blood s

cloning microinjection syringe and human embryonal stem cells ES cells Stock Photo

RFAYF96W–cloning microinjection syringe and human embryonal stem cells ES cells

human embryos cells at 4 days development Stock Photo

RMA4B53D–human embryos cells at 4 days development

RMCT1425–Lab assistant working with Adult Stem Cells

RFTA813T–Embryonic stem cells or growth, rehabilitation and treatment of diseases, 3D illustrations

RMAXNJ8R–cloning microinjection of human embryonal stem cells ES cells into egg cell ovum

Embryonic stem cells. Repairing damaged cells by reducing inflammation and modulating the immune system. Stem cell therapy concept Stock Photo

RF2J6XHAD–Embryonic stem cells. Repairing damaged cells by reducing inflammation and modulating the immune system. Stem cell therapy concept

RM2BFDY0T–A technician in a laboratory at the Institute for Frontier Medical Sciences, Kyoto University, Japan preparing induced puripotent stem cells for anima

human embryonal stem cell as seen through light microscope Stock Photo

RMAXNA1P–human embryonal stem cell as seen through light microscope

RFPJKA6W–Human embryonic stem cells, computer illustration.

Scientific research of nuclear transfer being carried out on several embryonic stem cells used in cloning and genetic modification Stock Photo

RF2E4JEMX–Scientific research of nuclear transfer being carried out on several embryonic stem cells used in cloning and genetic modification

Stem cell Dementia therapy and alzheimer treatment for brain degeneration as multicellular organisms for cellular treatment of degenerative. Stock Photo

RF2H34JP1–Stem cell Dementia therapy and alzheimer treatment for brain degeneration as multicellular organisms for cellular treatment of degenerative.

Human embryonic development cell stages Stock Vector

RF2JP16EE–Human embryonic development cell stages

Pipetting liquid into pots containing stem cell cultures for scientific experiment in lab. Stock Photo

RFWTWMAN–Pipetting liquid into pots containing stem cell cultures for scientific experiment in lab.

RMCT5JA1–HUMAN BLASTOCYST

Transparent cells in the blood, 3d rendering. Computer digital drawing. Stock Photo

RF2BM4452–Transparent cells in the blood, 3d rendering. Computer digital drawing.

Living cell. Cellular research of the future. 3D illustration of high technology in medicine Stock Photo

RF2PYMAF1–Living cell. Cellular research of the future. 3D illustration of high technology in medicine

Cells Isolated On White Background. Medical Scientific Research Stock Photo

RF2F64RE9–Cells Isolated On White Background. Medical Scientific Research

RF2T6W3DN–Development of bone in the place of the cartilage model. The growth plate is formed of cartilage consisting of proliferating cartilage cells.

RMG1572X–Illustration of stem cells. Stem cells can differentiate into any other cell type. There are three main types of mammalian stem cell: embryonic stem cells, derived from blastocysts; adult stem cells, which are found in some adult tissues; and cord blood s

Cell Biology, Pipetting sample into a petri dish containing cells. Stock Photo

RF2E26P9Y–Cell Biology, Pipetting sample into a petri dish containing cells.

embryo development. from fertilization to zygote, morula and Blastocyst. vector diagram for medical, educational and scientific use Stock Vector

RF2DHMGTG–embryo development. from fertilization to zygote, morula and Blastocyst. vector diagram for medical, educational and scientific use

RMCT1448–Lab assistant working with Adult Stem Cells

RFTAAEJ2–Embryonic stem cells or growth, rehabilitation and treatment of diseases, 3D illustrations

RMD3HFY9–EMBRYONIC STEM CELL

RF2J6XHAF–Embryonic stem cells. Repairing damaged cells by reducing inflammation and modulating the immune system. Stem cell therapy concept

RM2BFDY0E–A technician in a laboratory at the Institute for Frontier Medical Sciences, Kyoto University, Japan preparing induced puripotent stem cells for anima

RMAXN5EY–Cloning microinjection of human embryonal stem cells ES cells into egg cell ovum

RFPJKA6P–Human embryonic stem cells, computer illustration.

RF2TDEYK3–Thin line simple gradient embryonic stem cells icon concept

Representation of different types of therapeutic cloning: - Removal of cells from a blastocyst cultured in the laboratory giving differentiated cells. Stock Photo

RM2WWB2AN–Representation of different types of therapeutic cloning: - Removal of cells from a blastocyst cultured in the laboratory giving differentiated cells.

Cells human or animal under microscope. 3d render illustration Stock Photo

RFR4WKXW–Cells human or animal under microscope. 3d render illustration

Confocal Fluorescence Microscopy of CRISPR-generated knockout cells Stock Photo

RM2A7K88G–Confocal Fluorescence Microscopy of CRISPR-generated knockout cells

Human embryonic stem cell colony. Stock Photo

RMECWY2C–Human embryonic stem cell colony.

RF2BM443F–Transparent cells in the blood, 3d rendering. Computer digital drawing.

RF2M92E62–Embryonic stem cells

Feb 20, 2008 - San Diego, California, USA - A photo of human Embryonic Stem Cell (hESC) derived pancreatic Islet Cells at Novocell. (Credit Image: © Howard Lipin/San Diego Union Tribune/ZUMA Press) RESTRICTIONS: * USA Tabloids Rights OUT * Stock Photo

RMCAFT13–Feb 20, 2008 - San Diego, California, USA - A photo of human Embryonic Stem Cell (hESC) derived pancreatic Islet Cells at Novocell. (Credit Image: © Howard Lipin/San Diego Union Tribune/ZUMA Press) RESTRICTIONS: * USA Tabloids Rights OUT *

RF2T6W3FW–Development of bone in the place of the cartilage model. The growth plate is formed of cartilage consisting of proliferating cartilage cells.

RMG156JN–Illustration of stem cells. Stem cells can differentiate into any other cell type. There are three main types of mammalian stem cell: embryonic stem cells, derived from blastocysts; adult stem cells, which are found in some adult tissues; and cord blood s

Cell Research, Pipetting sample into a petri dish of cells in the lab Stock Photo

RF2E26PBY–Cell Research, Pipetting sample into a petri dish of cells in the lab

Stem cells research laboratory. Stock Photo

RME5R47X–Stem cells research laboratory.

RMCT143C–Lab assistant working with Adult Stem Cells

RFWTWMB0–Pipetting liquid into pots containing stem cell cultures for scientific experiment in lab.

RMD3HFY5–EMBRYONIC STEM CELL

RF2R9F91C–Embryonic stem cells. Repairing damaged cells by reducing inflammation and modulating the immune system. Stem cell therapy concept

A batch of induced puripotent stem cells being placed in liquid nitrogen for deep freezing after being incubated for 8 days at 37 degrees centigrade Stock Photo

RM2BFDY0Y–A batch of induced puripotent stem cells being placed in liquid nitrogen for deep freezing after being incubated for 8 days at 37 degrees centigrade

Embryonic mitosis stem cells colony tissue section magnified under a microscope Stock Photo

RFWW3K2K–Embryonic mitosis stem cells colony tissue section magnified under a microscope

RFPJKA9F–Human embryonic stem cells, computer illustration.

RF2TD0518–Thin line simple colorful embryonic stem cells icon concept

Terminal bud stem of waterweed (Elodea sp.), longitudinal section. Optical microscope, magnification X40. Stock Photo

RF2TBJ40T–Terminal bud stem of waterweed (Elodea sp.), longitudinal section. Optical microscope, magnification X40.

Electrical Facial-Skin Treatment, non-surgical anti-ageing treatments Stock Photo

RMT9GF2N–Electrical Facial-Skin Treatment, non-surgical anti-ageing treatments

RM2A7KJ1H–Confocal Fluorescence Microscopy of CRISPR-generated knockout cells.

Sir Martin Evans, pictured on October 9, 2007 at Cardiff University in Wales, was awarded the 2007 Nobel Prize for medicine for his research and discoveries in embryonic stem cells. (UPI Photo/Nick Treharne/Cardiff University) Stock Photo

RMW0MB99–Sir Martin Evans, pictured on October 9, 2007 at Cardiff University in Wales, was awarded the 2007 Nobel Prize for medicine for his research and discoveries in embryonic stem cells. (UPI Photo/Nick Treharne/Cardiff University)

RF2BM444Y–Transparent cells in the blood, 3d rendering. Computer digital drawing.

RF2M690FG–Embryonic stem cells

Mitosis, The Process Of Cell Division And Multiplication. Medical Science Stock Photo

RF2F64RE7–Mitosis, The Process Of Cell Division And Multiplication. Medical Science

Stem cells word cloud and hand with marker concept on white background. Stock Photo

RFR7G3KX–Stem cells word cloud and hand with marker concept on white background.

HANDOUT - An undated scanning electron microscope handout picture from the Max Planck Institute for Molecular Biomedicine shows embryonic stem cells of mice in Muenster, Germany. Numerous scientists at the institute of the University of Muenster are involved in stem cell research. Photo: Mpi Muenster Stock Photo

RMDAK0WM–HANDOUT - An undated scanning electron microscope handout picture from the Max Planck Institute for Molecular Biomedicine shows embryonic stem cells of mice in Muenster, Germany. Numerous scientists at the institute of the University of Muenster are involved in stem cell research. Photo: Mpi Muenster

RMDTYFK5–Embryonic Stem Cell

RME5R47W–Stem cells research laboratory.

RMCT1474–Lab assistant working with Adult Stem Cells

Human Embryonic Stem Cell Line WA13 Stock Photo

RMHRJFT3–Human Embryonic Stem Cell Line WA13

RMD3HFY6–EMBRYONIC STEM CELL

RF2K0KJ4X–Embryonic stem cells. Repairing damaged cells by reducing inflammation and modulating the immune system. Stem cell therapy concept

RM2BFDY15–A batch of induced puripotent stem cells being placed in liquid nitrogen for deep freezing after being incubated for 8 days at 37 degrees centigrade

RF2E26PB5–Cell Research, Pipetting sample into a petri dish of cells in the lab

RFPJKA6M–Human embryonic stem cells, computer illustration.

RF2TCRMGP–Thin line simple blue embryonic stem cells icon concept

Stem cell or stemcell concept as a three dimensional illustration of biological cells that divide through mitosis found in humans and other mammals as a medical science and healthcare research symbol for potential stem cell therapy. Stock Photo

RFEX4ETK–Stem cell or stemcell concept as a three dimensional illustration of biological cells that divide through mitosis found in humans and other mammals as a medical science and healthcare research symbol for potential stem cell therapy.

non-surgical anti-ageing treatments, beauty treatment room, Beauty Salon Stock Photo

RMT9GF3Y–non-surgical anti-ageing treatments, beauty treatment room, Beauty Salon

3d illustration of a human cell Stock Photo

RFTYE00T–3d illustration of a human cell

Embryonic stem cells Stock Photos and Images

Embryonic stem cells Stock Photos and Images

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