Geneticist Collection (page 2)

Genetic microarray preparation C019 / 0272
MODEL RELEASED. Genetic microarray preparation. Analyst pipetting a prepared DNA (deoxyribonucleic acid) sample onto a gene chip or microarray

Scanning genetic microarray C019 / 0286
Scanning genetic microarray. Analyst using a scanner to read the barcode of a gene chip or microarray. Samples of DNA (deoxyribonucleic acid) have been added to the microarray

Genetic microarray, analysis machine C019 / 0282
Genetic microarray, analysis machine. Analyst placing a prepared gene chip or microarray into an analysis machine. Samples of DNA (deoxyribonucleic acid) have been added to the microarray

Genetic sample analysis C019 / 0283
MODEL RELEASED. Genetic sample analysis. Analyst in a genetics laboratory reviewing data obtained from the analysis of a genetic microarray (held in hand)

Genetic analysis, DNA isolation C019 / 0265
MODEL RELEASED. Genetic analysis. Analyst using a nucleic acid purification machine to purify and isolate DNA (deoxyribonucleic acid) from blood samples

Genetic karyotype analysis C019 / 0269
MODEL RELEASED. Genetic karyotype analysis. Analyst in a genetics laboratory studying the results after DNA (deoxyribonucleic acid) was isolated from a sample

Genetic microarray, analysis machine C019 / 0281
MODEL RELEASED. Genetic microarray, analysis machine. Analyst placing a prepared gene chip or microarray into an analysis machine

Genetic analysis, DNA isolation C019 / 0262
MODEL RELEASED. Genetic analysis. Analyst using a nucleic acid purification machine to purify and isolate DNA (deoxyribonucleic acid) from blood samples

NOBEL PRIZE WINNERS, 1962. Nobel Prize winners at the ceremony in Stockholm, Sweden, 1962. Left to right: British biophysicist Francis Crick, New Zealand-born British biophysicist Maurice Wilkins

Trofim Denisovich Lysenko, Russian biologist, born in Karlovka, Poltava Oblast, Ukraine, on September 29, 1898. Lysenko graduated from the Kiev Institute of Agriculture in 1925

Trofim Lysenko, Russioan biologist

Professor Alec Jeffreys
Professor Sir Alec Jeffreys (born 1950), English molecular biologist and discoverer of DNA fingerprinting. He is holding up autoradiograms of DNA fingerprints

Computer artwork of Mendels Second Law
Mendels Second Law. Computer artwork of Mendels Second Law, the genetic law of independent assort- ment. It was formulated by the Austrian botanist Gregor Johann Mendel (1822-1884), top left

Computer artwork of the botanist Gregor Mendel
Gregor Mendel. Computer artwork of the Austrian botanist Gregor Johann Mendel (1822-1884) with a pea plant, DNA strand (orange) and sequence of genetic code (pink)

Computer artwork of Mendels First Law
Mendels First Law. Computer artwork of Mendels First Law, the genetic law of segregation. It was formulated by the Austrian botanist Gregor Johann Mendel (1822-1884), top left

Dr Craig Venter

Dmitri Belyaev, Soviet zoologist
Dmitri Konstantinovich Belyaev (1917-1985), Soviet zoologist, making a telephone call. Belyaev, a member of the USSR Academy of Sciences

Belyaev with his selectively bred foxes
Dmitri Konstantinovich Belyaev (1917-1985), Soviet zoologist, with his selectively bred foxes. Belyaev, a member of the USSR Academy of Sciences

Genetically modified corn
MODEL RELEASED. Genetically modified corn (Zea mays), being held by a scientist wearing protective clothing. Genetically modified (GM) or transgenic plants have genetic material (genes)

Cell culture research. Researcher using a light microscope to analyse cultured cells growing in a petri dish. These cells are growing in basal medium, an agar-based substance that contains nutrients

Ethical dilemma. Conceptual computer artwork of a man questioning whether he has the right to bring two wires together. This can represent many of the ethical and moral dilemmas in science

Stem cell culture. Scientist examining a petri dish used to culture human embryonic stem cells (HESCs). The HESCs are held within the drops of liquid

Geneticist
MODEL RELEASED. Geneticist examining the results of a polymerase chain reaction (PCR) cycle. This technique is used to amplify minute amounts of deoxyribonucleic acid (DNA)

Columbus family tissue samples
Tissue samples. One tube contains a sample of tissue from what may be the remains of the Italian explorer Christopher Columbus

Biotechnology research, conceptual image. Silhouette of a scientist looking through a microscope. The scientist is superimposed upon images of machinery and to his right are images of cells

DNA extraction. Geneticist removing tissue from a tooth thought to belong to the Italian explorer Christopher Columbus. The DNA (deoxyribonucleic acid)

DNA researcher
MODEL RELEASED. DNA researcher studying experimental data graphs on a computer screen

Insulin production. Scientists working in a facility for the production of recombinant human insulin. Insulin is used to treat insulin- dependent diabetes mellitus

Microbe fermentation unit for the production of hormones and enzymes for medical and industrial use. This is a method of solid state fermentation called tray or koji fermentation

Storing genetic material. Researcher removing a tray of vials containing human tissue samples taken from a freezer. The DNA (deoxyribonucleic acid)

Vaccine production
DNA vaccine production. Technician checking the quality of a sample of recombinant hepatitis B vaccine. Traditional hepatitis vaccine contains the full virus

Columbus tissue sample
Tissue sample. Tube containing a sample of tissue from what may be the remains of the Italian explorer Christopher Columbus (background)

Genetics research, conceptual artwork

Stem cell research
MODEL RELEASED. Stem cell research. Scientist examining stem cell cultures

Biological research
MODEL RELEASED. Biological research. Scientist using a pipette to fill eppendorf vials. These are used in a wide range of biological experiments, ranging from genetic analysis to medical research

Microbiological research
MODEL RELEASED. Microbiological research. Scientist examining microbiological cultures in a petri dish

th Morgan / Nobel 1933
THOMAS HUNT MORGAN American geneticist

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Geneticists are the unsung heroes of science, unraveling the mysteries hidden within our DNA. They stand on the shoulders of giants like Watson and Crick, who famously unveiled the double helix structure of DNA with their iconic model. This breakthrough laid the foundation for countless discoveries that followed. In a portrait, we see Sir Ronald Aylmer Fisher, a pioneer in statistical genetics. His work revolutionized how we understand inheritance patterns and genetic variation. Alongside him, Watson and Crick proudly hold their DNA model, forever etching their names in scientific history as the discoverers of this fundamental molecule. But geneticists extend beyond these famous figures; they trace back to Gregor Mendel, an Austrian botanist whose experiments with pea plants established key principles of heredity. His groundbreaking work paved the way for modern genetics. John Maynard Smith's caricature captures his brilliance as an evolutionary biologist who applied genetics to explain complex behaviors in animals. Nikolai Vavilov and Nikolai Dubinin represent Soviet contributions to genetics - Vavilov dedicated his life to preserving crop diversity while Dubinin made significant advancements in understanding gene mutations. A black-and-white photograph showcases Gregor Johann Mendel himself - his calm demeanor hiding a mind teeming with revolutionary ideas about inheritance patterns. William Bateson's portrait reminds us of British contributions to genetics during World War I when he coined the term "genetics" itself. Clarence Little's photograph reveals an American geneticist deeply engrossed in tobacco research - a testament to how diverse this field can be. And Thomas Hunt Morgan's diagram illustrates his white-eye experiments with fruit flies, which provided crucial evidence for genes being located on chromosomes. These glimpses into the lives and works of various geneticists remind us that behind every discovery lies years of dedication and relentless pursuit of knowledge. Geneticists continue pushing boundaries today, unlocking secrets encoded within our genes that could shape the future of medicine, agriculture, and our understanding of life itself.