Biochemist Collection

Watson and Crick, DNA discovers
Watson and Crick. Caricature of the molecular biologists and discoverers of the structure of DNA James Watson (born 1928, left) and Francis Crick (1916-2004), with their model of a DNA molecule

Isaac Asimov, US author and biochemist
Isaac Asimov. Caricature of the Soviet-born American science fiction writer and biochemist Isaac Asimov (1920-1992). Asimov is best known for his science fiction novels and popular science books

Rosalind Franklin, British chemist
Rosalind Franklin (1920-1958), British chemist and X-ray crystallographer, holding a model of DNA (deoxyribonucleic acid)

Otto Warburg / Nobel 1931
OTTO HEINRICH WARBURG German biochemist

Selman Waksman, Ukrainian-born American biochemist and microbiologist (b / w photo)
6014934 Selman Waksman, Ukrainian-born American biochemist and microbiologist (b/w photo) by American Photographer (19th century) (after); Private Collection; (add.info.: Selman Waksman (1888-1973)

Luis Federico Leloir (1906-1987), French biochemist, Nobel Prize in Chemistry in 1970

Milan Ryzl, Czech biochemist and parapsychologist
Milan Ryzl (1928-2011), Czech biochemist and parapsychologist, winner of the 1962 McDougall Award for parapsychology research

Alexander Oparin, Russian biochemist, born March 3, 1894. Oparin graduated from Moscow University in 1917 and became professor of plant biochemistry there in 1929

SA Waksman - COL Lith
Selman Abraham Waksman (1888 - 1973) American biochemist, born in Russia

Albrecht Kossel
ALBRECHT KOSSEL German biochemist Date: 1853 - 1927

Aleksandr Oparin, Russian biochemist
Aleksandr Ivanovich Oparin (1894-1980), Russian biochemist. Oparin is famous for his work on theories of the origin of life

Milan Ryzl, Czech biochemist and parapsychologist, winner of the 1962 McDougall Award for parapsychology research. He organized a parapsychology study group in Prague

Szent-Gyorgyi / Nobel 1937
ALBERT VON NAGYRAPOLT SZENT-GYORGYI American biochemist, born in Hungary Date: 1893 - 1986

Ernst Boris Chain (1906-1979), German-born British biochemist. Chain, with Howard Florey, purified penicillin. He shared the 1945 Nobel prize for physiology or medicine with Florey

Biological research F006 / 9086
MODEL RELEASED. Biological research

Aleksey Bakh, Soviet biochemist C016 / 7629
Aleksey Nikolayevich Bakh (1857-1946), Soviet biochemist. Bakh was the founder of Soviet biochemistry, and became a member of the USSR Academy of Sciences in 1929

Genetic microarray preparation C019 / 0277
Genetic microarray preparation. Analyst holding a prepared gene chip or microarray, to which samples of DNA (deoxyribonucleic acid) have been added

Genetic karyotype analysis C019 / 0270
MODEL RELEASED. Genetic karyotype analysis. Analyst in a genetics laboratory studying the results after DNA (deoxyribonucleic acid) was isolated from a sample

Genetic karyotype analysis C019 / 0271
Genetic karyotype analysis. Analyst in a genetics laboratory studying the results after DNA (deoxyribonucleic acid) was isolated from a sample

Genetic analysis, hybridization oven C019 / 0275
MODEL RELEASED. Genetic analysis. Analyst placing gene chips or microarrays in a hybridization oven. Gene microarrays are used with automated equipment to investigate

Genetic analysis, pre-PCR workstation C019 / 0294
MODEL RELEASED. Genetic analysis. Analyst in a genetics laboratory preparing samples at a pre-PCR (pre-polymerase chain reaction) workstation

Genetic analysis, DNA isolation C019 / 0264
MODEL RELEASED. Genetic analysis. Analyst using a nucleic acid purification machine to purify and isolate DNA (deoxyribonucleic acid) from blood samples

Genetic analysis, sample preparation C019 / 0263
MODEL RELEASED. Genetic analysis. Analyst in a genetics laboratory preparing blood samples before isolating DNA (deoxyribonucleic acid)

Genetic analysis, DNA isolation C019 / 0261
MODEL RELEASED. Genetic analysis. Analyst using a nucleic acid purification machine to purify and isolate DNA (deoxyribonucleic acid) from blood samples

Genetic analysis, washing samples C019 / 0279
Genetic analysis. Analyst in a genetics laboratory operating a machine (fluidic station) that is being used to wash and label genetic microarrays containing samples of DNA (deoxyribonucleic acid)

Genetic analysis, hybridization oven C019 / 0276
Genetic analysis. Analyst placing gene chips or microarrays in a hybridization oven. Gene microarrays are used with automated equipment to investigate

Genetic microarray preparation C019 / 0274
Genetic microarray preparation. Analyst pipetting a prepared DNA (deoxyribonucleic acid) sample onto a gene chip or microarray

Genetic analysis, scanning samples C019 / 0258
Genetic analysis. Analyst in a genetics laboratory, scanning labelled blood samples. DNA (deoxyribonucleic acid) will be isolated from the samples

Genetic analysis, pre-PCR workstation C019 / 0295
MODEL RELEASED. Genetic analysis. Analyst in a genetics laboratory preparing samples at a pre-PCR (pre-polymerase chain reaction) workstation

Genetic analysis, pre-PCR workstation C019 / 0293
MODEL RELEASED. Genetic analysis. Analyst in a genetics laboratory preparing samples at a pre-PCR (pre-polymerase chain reaction) workstation

Genetic analysis, washing samples C019 / 0278
MODEL RELEASED. Genetic analysis. Analyst in a genetics laboratory operating a fluidic station that is being used to wash and label genetic microarrays containing samples of DNA

Genetic analysis, sample preparation C019 / 0260
Genetic analysis. Analyst in a genetics laboratory preparing blood samples before isolating DNA (deoxyribonucleic acid). This sample preparation will be done with a nucleic acid purification machine

Genetic analysis, labelling samples C019 / 0256
MODEL RELEASED. Genetic analysis. Analyst in a genetics laboratory, labelling and scanning blood samples. DNA (deoxyribonucleic acid) will be isolated from the samples

Genetic sample analysis C019 / 0284
MODEL RELEASED. Genetic sample analysis. Analyst in a genetics laboratory reviewing data obtained from the analysis of a genetic microarray (held in hand)

Scanning genetic microarray C019 / 0285
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 karyotype analysis C019 / 0268
MODEL RELEASED. Genetic karyotype analysis. Analyst in a genetics laboratory studying the results after DNA (deoxyribonucleic acid) was isolated from a sample

Genetic microarray preparation C019 / 0273
MODEL RELEASED. Genetic microarray preparation. Analyst pipetting a prepared DNA (deoxyribonucleic acid) sample onto a gene chip or microarray

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

Roger Kornberg, US chemist
Roger Kornberg (b.1947), US biochemist and Nobel Laureate. Kornberg won the 2006 Nobel Prize for Chemistry for his work on eukaryotic transcription

Scientist holding a test tube C014 / 4628
Scientist holding a test tube

Scientist holding a test tube C014 / 4627
Scientist holding a test tube

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"Unveiling the Secrets of Life: Celebrating the Pioneers in Biochemistry" In the realm of scientific exploration, biochemists have played a crucial role in unraveling the mysteries of life. From Watson and Crick's groundbreaking discovery of DNA's structure to Isaac Asimov's captivating narratives merging science and fiction, these individuals have left an indelible mark on our understanding of biology. Rosalind Franklin, a brilliant British chemist, made significant contributions to elucidating DNA's double helix structure alongside her male counterparts. Her invaluable research laid the foundation for future breakthroughs in genetics. Otto Warburg, recipient of the Nobel Prize in Physiology or Medicine in 1931, delved into cellular respiration and cancer metabolism. His pioneering work shed light on how alterations within cells contribute to malignant growth. SA Waksman from Colombia Lithuanian descent revolutionized medicine with his discovery of streptomycin—an antibiotic that effectively combats tuberculosis—a milestone achievement that saved countless lives. Albrecht Kossel’s tireless efforts led him to isolate nucleic acids and discover their vital role as carriers of genetic information within cells. This German biochemist paved the way for further investigations into gene expression and regulation. Milan Ryzl was not only a prominent Czech biochemist but also ventured into parapsychology—an intriguing intersection between science and paranormal phenomena—showcasing his multidisciplinary approach towards knowledge acquisition. Selman Waksman, born in Ukraine but later becoming an American citizen, dedicated his career to studying microorganisms' ability to produce antibiotics. His discoveries opened up new avenues for developing effective treatments against infectious diseases. Lina Stern, a remarkable Russian biochemist captured through black-and-white photography in 1962, contributed significantly to endocrinology research by investigating hormone production within various organs—a field critical for understanding human physiology.