Recombinant dna hi-res stock photography and images

Test tubes with fluid for DNA extraction Stock Photo

RMBK89PE–Test tubes with fluid for DNA extraction

Plasmids and Recombinant DNA. foreign DNA fragment is inserted into a plasmid vector. Gene cloning. recombinant subunit vaccine. Molecular Biology Stock Vector

RF2H3G98C–Plasmids and Recombinant DNA. foreign DNA fragment is inserted into a plasmid vector. Gene cloning. recombinant subunit vaccine. Molecular Biology

Recombinant DNA technology: Petri dishes are employed in various recombinant DNA techniques, including DNA cloning, DNA ligation, and DNA transformati Stock Photo

RF2RNNGK2–Recombinant DNA technology: Petri dishes are employed in various recombinant DNA techniques, including DNA cloning, DNA ligation, and DNA transformati

recombinant DNA technology. Recombinant human insulin is synthesized in laboratory by inserting a human insulin gene into Plasmid of bacteria E. coli Stock Vector

RF2KJ32PW–recombinant DNA technology. Recombinant human insulin is synthesized in laboratory by inserting a human insulin gene into Plasmid of bacteria E. coli

Recombinant DNA vector illustration on white background Stock Vector

RF2XA55BC–Recombinant DNA vector illustration on white background

Bacterial DNA. plasmid is a small, extrachromosomal DNA molecule. Plasmid vector, insert of recombinant DNA sequences. Genetic Engineering. antibiotic Stock Vector

RF2JE5NEA–Bacterial DNA. plasmid is a small, extrachromosomal DNA molecule. Plasmid vector, insert of recombinant DNA sequences. Genetic Engineering. antibiotic

DNA binding protein. Molecular model of the recombinant protein S7dLZ bound to DNA (deoxyribonucleic acid) molecules. S7dLZ is made up of the DNA binding protein Sac7d and the transcriptional activator GCN4. Stock Photo

RFE7TNMF–DNA binding protein. Molecular model of the recombinant protein S7dLZ bound to DNA (deoxyribonucleic acid) molecules. S7dLZ is made up of the DNA binding protein Sac7d and the transcriptional activator GCN4.

Asian person student swabbing her cheek to obtain cells for DNA fingerprinting study Stock Photo

RMA533AY–Asian person student swabbing her cheek to obtain cells for DNA fingerprinting study

RMB961JD–Forensic Pathology Research

RMEXE2C7–Asian person student swabbing her cheek to obtain cells for DNA fingerprinting study

DNA research with graphics charts reference in the background Stock Photo

RFGJA7NT–DNA research with graphics charts reference in the background

Recombinant human insulin. Recombinant bacteria use the gene for producing insulin. Cross section of a bacteria with plasmid. Glass vial with Insulin. Stock Vector

RF2WRM125–Recombinant human insulin. Recombinant bacteria use the gene for producing insulin. Cross section of a bacteria with plasmid. Glass vial with Insulin.

Laboratory, pipetting of DNA samples into Eppendorf tubes, Centre for Medical Biotechnology University Duisburg-Essen Stock Photo

RMRDP3A0–Laboratory, pipetting of DNA samples into Eppendorf tubes, Centre for Medical Biotechnology University Duisburg-Essen

Chromosomal crossover. maternal & paternal Homologous chromosomes and Exchange genetic material in meiosis. Sister and Recombinant chromatids. Vector Stock Vector

RF2DHY2E7–Chromosomal crossover. maternal & paternal Homologous chromosomes and Exchange genetic material in meiosis. Sister and Recombinant chromatids. Vector

DNA binding protein, molecular model Stock Photo

RFDP2CFD–DNA binding protein, molecular model

Bacterial Conjugation. Horizontal gene transfer. Reproduction in bacteria, Plasmid transformation. Transfer of DNA via a plasmid from a donor Stock Vector

RF2R26HBR–Bacterial Conjugation. Horizontal gene transfer. Reproduction in bacteria, Plasmid transformation. Transfer of DNA via a plasmid from a donor

RF2AP7HYW–Genetic engineering concept icon. Genome modification. Recombinant dna technology. Transgenic organism. Bioengineering idea thin line illustration. Ve

Horizontal gene transfer for example bacteria. Transfer of DNA via a plasmid from a donor to a recombinant recipient during cell-to-cell contact Stock Vector

RF2DH781G–Horizontal gene transfer for example bacteria. Transfer of DNA via a plasmid from a donor to a recombinant recipient during cell-to-cell contact

Bacteria recombination. Bacterial transformation, conjugation, transduction. Genetics Stock Photo

RF2G3M48J–Bacteria recombination. Bacterial transformation, conjugation, transduction. Genetics

Genetically modified Bacteria. Escherichia coli and Genetic engineering. E. coli for production of Enzymes for antibiotics, Recombinant Interferon, Re Stock Vector

RF2XEY9RT–Genetically modified Bacteria. Escherichia coli and Genetic engineering. E. coli for production of Enzymes for antibiotics, Recombinant Interferon, Re

RF2G3M48D–Bacteria recombination. Bacterial transformation, conjugation, transduction. Genetics

Bacterial dna and plasmid. Cross section of bacteria with a small extrachromosomal dna molecule. plasmids carry genes selective advantage and antibiot Stock Vector

RF2HW1DGT–Bacterial dna and plasmid. Cross section of bacteria with a small extrachromosomal dna molecule. plasmids carry genes selective advantage and antibiot

Illustration of bacterial transformation Stock Photo

RF2G3M48R–Illustration of bacterial transformation

Detailed Vector Illustration of Recombinant DNA Construction and Introduction into Bacteria for Genetic Engineering and Biotechnology Education on Whi Stock Vector

RF2XA55BF–Detailed Vector Illustration of Recombinant DNA Construction and Introduction into Bacteria for Genetic Engineering and Biotechnology Education on Whi

Recombinant protein vaccine. mechanism of action to prompt the body to produce antibodies against SARS-CoV-2, and different infectious diseases. COVID Stock Vector

RF2F7T2F5–Recombinant protein vaccine. mechanism of action to prompt the body to produce antibodies against SARS-CoV-2, and different infectious diseases. COVID

Biotechnology or biotech. Concept of living system and organic with related scientific fields. Stock Photo

RF2GE57FW–Biotechnology or biotech. Concept of living system and organic with related scientific fields.

Genetically modified organisms are produced using scientific methods that include recombinant DNA technology. Stock Photo

RMBBJ84E–Genetically modified organisms are produced using scientific methods that include recombinant DNA technology.

Destruction of the DNA model on a dark background, 3D render. Stock Photo

RF2FN074T–Destruction of the DNA model on a dark background, 3D render.

Researcher's hand loading a DNA sample into a microcentrifuge Stock Photo

RMA533BG–Researcher's hand loading a DNA sample into a microcentrifuge

RFGJA7NW–DNA research with graphics charts reference in the background

RFS02JEH–Dna sequence on hand

RMRDP39X–Laboratory, pipetting of DNA samples into Eppendorf tubes, Centre for Medical Biotechnology University Duisburg-Essen

3D rendering of plasmid circular DNA and Escherichia coli bacteria Stock Photo

RF2T71M78–3D rendering of plasmid circular DNA and Escherichia coli bacteria

RF2NMMBHK–Gene cloning, illustration

RFKGDWRN–DNA research with graphics charts reference in the background

Big Genomic Data Visualization. DNA helix, DNA strand, DNA Test. CRISPR CAS9 - Genetic engineering. Molecule or atom, neurons. Abstract structure for Stock Vector

RF2BH4FKW–Big Genomic Data Visualization. DNA helix, DNA strand, DNA Test. CRISPR CAS9 - Genetic engineering. Molecule or atom, neurons. Abstract structure for

Omicron XBB variant is a hybrid of the two subvariants of Omicron: BA.2.75 and BA.2.10.1. Schematic drawing. Two viruses exchange their DNA. The excha Stock Vector

RF2MJHJD5–Omicron XBB variant is a hybrid of the two subvariants of Omicron: BA.2.75 and BA.2.10.1. Schematic drawing. Two viruses exchange their DNA. The excha

RMACNNDN–DNA research with graphics charts reference in the background

Transformed bacteria colonies containing a jellyfish gene for GFP (green fluorescent protein) causing green bioluminescence. Stock Photo

RMBK8J2W–Transformed bacteria colonies containing a jellyfish gene for GFP (green fluorescent protein) causing green bioluminescence.

Enzyme Linked Immunosorbent Assay in a 96 well plate Stock Photo

RMB961XX–Enzyme Linked Immunosorbent Assay in a 96 well plate

RFE55G5C–Deoxythymidine (dT) DNA building block, flat icon style. Oxygen, carbon and nitrogen atoms shown as circles;

Test tubes with samples in the research & development laboratory of a biochemical company doing recombinant dna research Stock Photo

RMCB62MG–Test tubes with samples in the research & development laboratory of a biochemical company doing recombinant dna research

Molecular Illustration of Gene Cloning. From Plasmid to Recombinant DNA. Vector Illustration. Stock Vector

RF2K30CA1–Molecular Illustration of Gene Cloning. From Plasmid to Recombinant DNA. Vector Illustration.

Sol Spiegelman (1914-1983) was an American molecular biologist whose pioneering discoveries accelerated the study of gene mechanisms and laid the foundations of recombinant DNA technology. Sol Spiegelman working in University of Illinois lab 1951 Stock Photo

RMEX6PND–Sol Spiegelman (1914-1983) was an American molecular biologist whose pioneering discoveries accelerated the study of gene mechanisms and laid the foundations of recombinant DNA technology. Sol Spiegelman working in University of Illinois lab 1951

Cloning is the most recent evolution of selective assisted breeding in animal husbandry. Cloning animals is a reliable way of reproducing superior liv Stock Vector

RFHRXTT0–Cloning is the most recent evolution of selective assisted breeding in animal husbandry. Cloning animals is a reliable way of reproducing superior liv

The steps involved in the engineering of a recombinant DNA molecule. Stock Photo

RMBCE6WD–The steps involved in the engineering of a recombinant DNA molecule.

Abstract DNA strands double helix, 3D render. Stock Photo

RF2FN074W–Abstract DNA strands double helix, 3D render.

Detailed Vector Illustration of EcoR1 Restriction Enzyme Action on DNA Sequence for Molecular Biology and Genetic Engineering on White Background. Stock Vector

RF2XA50PR–Detailed Vector Illustration of EcoR1 Restriction Enzyme Action on DNA Sequence for Molecular Biology and Genetic Engineering on White Background.

Biotechnology set. Scientists engaged in cloning, CRISPR gene editing, and recombinant DNA technology. Research and innovation in genetics. Vector illustration. Stock Vector

RF2XNJGX4–Biotechnology set. Scientists engaged in cloning, CRISPR gene editing, and recombinant DNA technology. Research and innovation in genetics. Vector illustration.

Viral vector for deliver genetic material into cells. Adenovirus for Gene Therapy. Genetic Engineering. Genome Editing. Vector illustration Stock Vector

RF2TD9G1T–Viral vector for deliver genetic material into cells. Adenovirus for Gene Therapy. Genetic Engineering. Genome Editing. Vector illustration

Laboratory, DNA samples in test tubes, Eppendorf tubes, Centre for Medical Biotechnology University Duisburg-Essen Stock Photo

RMRDP3A3–Laboratory, DNA samples in test tubes, Eppendorf tubes, Centre for Medical Biotechnology University Duisburg-Essen

RF2T71M7F–3D rendering of plasmid circular DNA and Escherichia coli bacteria

Scientific vector illustration genetic engineering and gene manipulation concept. DNA helix, DNA strand, molecule or atom, neurons. Abstract structure Stock Vector

RF2FKANT1–Scientific vector illustration genetic engineering and gene manipulation concept. DNA helix, DNA strand, molecule or atom, neurons. Abstract structure

RFKGDWRX–DNA research with graphics charts reference in the background

RF2F9J7M3–Scientific vector illustration genetic engineering and gene manipulation concept. DNA helix, DNA strand, molecule or atom, neurons. Abstract structure

Genetic engineering is a targeted and powerful method of introducing desirable traits into animals using recombinant DNA (rDNA) technology. DNA is the chemical inside the nucleus of a cell that carries the genetic instructions for making living organisms. Stock Photo

RMG1572F–Genetic engineering is a targeted and powerful method of introducing desirable traits into animals using recombinant DNA (rDNA) technology. DNA is the chemical inside the nucleus of a cell that carries the genetic instructions for making living organisms.

RF2F9J640–Scientific vector illustration genetic engineering and gene manipulation concept. DNA helix, DNA strand, molecule or atom, neurons. Abstract structure

RESEARCHER WITH GMO VEGETABLE Stock Photo

RFCC6T2G–RESEARCHER WITH GMO VEGETABLE

RMB96216–Enzyme Linked Immunosorbent Assay in a 96 well plate

RFE55G58–Deoxyguanosine (dG) DNA building block, flat icon style. Oxygen, carbon and nitrogen atoms shown as circles;

Hepatitis B vaccine development and implementation Hepatitis B vaccine development and implementation Stock Photo

RF2H17XDG–Hepatitis B vaccine development and implementation Hepatitis B vaccine development and implementation

RF2K30CA8–Molecular Illustration of Gene Cloning. From Plasmid to Recombinant DNA. Vector Illustration.

Plant genetic engineering, also known as plant genetic modification or manipulation Stock Photo

RF2GEHKBY–Plant genetic engineering, also known as plant genetic modification or manipulation

RMDD56GB–Transformed bacteria colonies containing a jellyfish gene for GFP (green fluorescent protein) causing green bioluminescence.

Genetic engineering and gene manipulation Stock Photo

RF2G3M63T–Genetic engineering and gene manipulation

Fragment of DNA double helix model, 3D render. Stock Photo

RF2JADF1E–Fragment of DNA double helix model, 3D render.

Detailed Vector Illustration of EcoRV Restriction Enzyme Action on DNA Sequence for Molecular Biology and Genetic Engineering on White Background. Stock Vector

RF2XA512A–Detailed Vector Illustration of EcoRV Restriction Enzyme Action on DNA Sequence for Molecular Biology and Genetic Engineering on White Background.

Luminous double helix strands of abstract DNA, 3D render. Stock Photo

RF2FN0748–Luminous double helix strands of abstract DNA, 3D render.

Scientist in the laboratory of a chemical company doing recombinant DNA research Stock Photo

RMB3Y5A8–Scientist in the laboratory of a chemical company doing recombinant DNA research

RMRDP3A4–Laboratory, DNA samples in test tubes, Eppendorf tubes, Centre for Medical Biotechnology University Duisburg-Essen

RF2T71M7B–3D rendering of plasmid circular DNA and Escherichia coli bacteria

Golden glow of DNA strands double helix, 3D render. Stock Photo

RF2G74XNP–Golden glow of DNA strands double helix, 3D render.

RFKGDWPY–DNA research with graphics charts reference in the background

Escherichia coli bacteria were transformed with a plasmid containing GFP gene. Colonies in a petri dish under UV light. Stock Photo

RFR93BTF–Escherichia coli bacteria were transformed with a plasmid containing GFP gene. Colonies in a petri dish under UV light.

RMEX6PNE–Sol Spiegelman (1914-1983) was an American molecular biologist whose pioneering discoveries accelerated the study of gene mechanisms and laid the foundations of recombinant DNA technology. Sol Spiegelman working in University of Illinois lab 1974

RF2F877RM–Scientific vector illustration genetic engineering and gene manipulation concept. DNA helix, DNA strand, molecule or atom, neurons. Abstract structure

Mechanisms of horizontal gene transfer. conjugation (Transfer of DNA via a plasmid from a donor cell to a recipient), transduction (Bacterial DNA) Stock Vector

RF2DH7818–Mechanisms of horizontal gene transfer. conjugation (Transfer of DNA via a plasmid from a donor cell to a recipient), transduction (Bacterial DNA)

RMB961X5–Enzyme Linked Immunosorbent Assay in a 96 well plate

RFE55G56–Deoxycytidine (dC) DNA building block, flat icon style. Oxygen, carbon and nitrogen atoms shown as circles;

Researcher holding up a GMO vegetable Stock Photo

RFDN220Y–Researcher holding up a GMO vegetable

Biotechnology concept. Scientists with a DNA helix demonstrating genetic engineering and recombinant DNA technology. Research in molecular biology. Vector illustration. Stock Vector

RF2XY63DK–Biotechnology concept. Scientists with a DNA helix demonstrating genetic engineering and recombinant DNA technology. Research in molecular biology. Vector illustration.

An open book with DNA strands and genetic code springing from book Stock Photo

RFT4YMRN–An open book with DNA strands and genetic code springing from book

RF2WR50RC–Recombinant DNA green concept icon

engineering modified genetic Stock Photo

RFGK3H3T–engineering modified genetic

Coloured scanning electron micrograph (SEM) of Komagataella phaffii - methylotrophic yeast.Komagataella phaffii is newly identified yeast that has methanol-assimilating capabilities.It can use methanol as sole carbon source when glycerol or glucose is not found as food source.Shown hear are yeast Stock Photo

RFHJ0C0P–Coloured scanning electron micrograph (SEM) of Komagataella phaffii - methylotrophic yeast.Komagataella phaffii is newly identified yeast that has methanol-assimilating capabilities.It can use methanol as sole carbon source when glycerol or glucose is not found as food source.Shown hear are yeast

Dna being a complex subject, related to other important topics. Stock Photo

RF2YNWARF–Dna being a complex subject, related to other important topics.

The combination formed by an enzyme and its substrates is called the enzyme–substrate complex. Stock Vector

RF2MN3E9D–The combination formed by an enzyme and its substrates is called the enzyme–substrate complex.

Scientist in the research & development laboratory of a biochemical company doing recombinant dna research Stock Photo

RMCB62M4–Scientist in the research & development laboratory of a biochemical company doing recombinant dna research

RMRDP3A1–Laboratory, DNA samples in test tubes, Eppendorf tubes, Centre for Medical Biotechnology University Duisburg-Essen

One person is answering question about vaccines. He knows about recombinant DNA. Stock Photo

RF2HE1K2K–One person is answering question about vaccines. He knows about recombinant DNA.

RFAX5YTH–Chemist and DNA information

RFKGDWR8–DNA research with graphics charts reference in the background

Calculating dilutions of DNA samples, molecular genetics Stock Photo

RMDE13M0–Calculating dilutions of DNA samples, molecular genetics

Double helix structure of abstract DNA model, 3D render. Stock Photo

RF2G61HC7–Double helix structure of abstract DNA model, 3D render.

Stem cell research, Max Planck Institute for Molecular Genetics, scientist, stem-cell cultures, Berlin, Germany Stock Photo

RMB0WB33–Stem cell research, Max Planck Institute for Molecular Genetics, scientist, stem-cell cultures, Berlin, Germany

RF2F9J5W8–Scientific vector illustration genetic engineering and gene manipulation concept. DNA helix, DNA strand, molecule or atom, neurons. Abstract structure

RMRDP39W–Laboratory, pipetting of DNA samples into Eppendorf tubes, Centre for Medical Biotechnology University Duisburg-Essen

RFE55G52–Deoxyadenosine (dA) DNA building block, flat icon style. Oxygen, carbon and nitrogen atoms shown as circles; Hydrogen atoms omit

RF2F3B766–Scientific vector illustration genetic engineering and gene manipulation concept. DNA helix, DNA strand, molecule or atom, neurons. Abstract structure

Researcher holding up a GMO vegetable in the lab Stock Photo

RFDN22YR–Researcher holding up a GMO vegetable in the lab

Recombinant dna Stock Photos and Images

Recombinant dna Stock Photos and Images

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