Dna Research Collection

Computer screen showing a human genetic sequence
DNA sequencing. Computer screen showing a sequence of base pairs forming part of the human genetic code. The three billion base pairs that form the genetic code of human DNA (deoxyribonucleic acid)

DNA autoradiogram, artwork. Autoradiograms show the order of nucleotide bases (basic building blocks) in a sample of DNA (deoxyribonucleic acid)

Grapevine genome sequencing. Data from a gelelectrophoresis experiment to sequence the PinotNoir grape ( Vitis sp. ) genome

DNA analysis, negative image. Graphs showing the results of DNA (deoxyribonucleic acid) sequencing. A DNA molecule consists of two sugar-phosphate backbones, arranged as a double helix

USA, New York, Long Island, Cold Spring Harbor, view towards Cold Spring Harbor Laboratory

DNA electrophoresis gels, artwork
DNA electrophoresis. Computer artwork of agarose electrophoresis gels. Each gel reveals different fragments of DNA. The fragments are separated by applying an electric current across the gel

View of microtubes, pipette & DNA sequence
DNA research. View of a pipettor tip (lower left) and microtubes in a rack on top of a DNA sequence. The DNA sequence which is also known as an autoradiogram

DNA fingerprints. The photo shows an X-ray (or autoradiograph) of bands of DNA produced by the technique of electrophoresis in an agarose gel

Samples of DNA being loaded onto an agarose gel
MODEL RELEASED. DNA electrophoresis. Researcher loads a sample of DNA (DeoxyriboNucleic Acid) into an agarose gel for separation by electrophoresis

DNA fingerprinting used to analyse family relationships. The photo shows an X-ray (or autoradiograph) of bands of DNA produced by the technique of electrophoresis in an agarose gel

Genetics research F006 / 9088
MODEL RELEASED. 9Genetics research. Scientist examining a DNA autoradiogram

Genetics research F006 / 9087
MODEL RELEASED. 9Genetics research. Scientist examining a DNA autoradiogram

Genetic research, conceptual image F006 / 9068
Genetic research, conceptual image

Genetic research, conceptual image F006 / 9067
Genetic research, conceptual image

Genetic research, conceptual image F006 / 9065
Genetic research, conceptual image

Genetic research, conceptual image F006 / 9066
Genetic research, conceptual image

DNA gene switch circuit board. Computer artwork of a molecule of DNA (deoxyribonucleic acid) with gene switches integrated into a printed circuit board

Sanger Centre used for the human genome project

PCR results. Conceptual image representing the use of a polymerase chain reaction (PCR) in DNA (deoxyribonucleic acid) finger-printing to catch criminals

Genetic individuality, male Head with DNA
Genetic individuality. Conceptual computer artwork showing a male head with a DNA. DNA (deoxyribonucleic acid) carries genetic information

DNA sequence magnified by a magnifying gl

cientist studies DNA autoradiogram with magnifier
MODEL RELEASED. Gene mapping. Male scientist studies a series of DNA sequencing autoradiograms or " genetic fingerprints" through a magnifying glass

DNA BioChip plotter being tested for accuracy
DNA BioChip plotter test. Testing of the plotter used in the manufacture of DNA BioChips. The DNA BioChip allows cheap and rapid simultaneous analyses for infectious organisms to be carried out

Computer artwork depicting babys paternity test
Paternity testing. Computer artwork of the procedure involved in a babys paternity test. A sample of DNA (deoxyribonucleic acid, far left) is taken from the baby and its parents

DNA circuit board. Computer artwork of a molecule of DNA (deoxyribonucleic acid) integrated into a printed circuit board. Such systems could be used to prevent fraud

Stem cell gene expression. Gene expression colormap for blood and neural stem cells. All cells contain a complete copy of an organisms genetic information in the form of DNA (deoxyribonucleic acid)

Rows of PCR systems copying human DNA
Human genome research. Rows of GeneAmp polymerase chain reaction (PCR) systems copying human DNA at the Joint Genome Institute (JGI)

Cryostorage of DNA samples in microtubes

DNA biochip, artwork
DNA biochip. Computer artwork of a DNA biochip, used for cheap and rapid simultaneous analyses of pieces of DNA. It consists of a chip holding tiny dots of DNA

Genetic individuality, computer artwork
Genetic individuality. Conceptual computer artwork showing the ability of human genetic information to be translated into digital binary code for biometric purposes

Chromosome analysis
MODEL RELEASED. Chromosome analysis. Geneticist analysing human chromosomes by fluorescent microscopy. Individual chromosomes are visible on the computer monitor as pale blue rods

Technician monitoring supercomputers at Celera
DNA sequencing supercomputers. Technician with supercomputers used in human genome research at Celera Genomics, Maryland, USA, a rival to the Human Genome Project

Radiogram of DNA on hands

Technician using a pipettor during DNA sequencing
MODEL RELEASED. DNA sequencing. Male technician using a pipettor above an electrophoresis gel during DNA (Deoxyribonucleic Acid) sequencing

Researchers sequencing human DNA in a laboratory
Human genome research. Researchers carrying out DNA sequencing at the Joint Genome Institute (JGI). Computers sit between the large automated sequencers

Researcher holds DNA NutriChip for food tests
DNA NutriChip. Gloved hand holding a DNA NutriChip (a type of DNA BioChip). The NutriChip allows cheap and rapid simultaneous analyses for infectious organisms to be carried out on samples of food

Computer artwork depicting genetic screening

Artwork of DNA sequences and a human fingerprint

Autoradiogram showing a DNA fingerprint
DNA fingerprint. View of an autoradiogram (X-ray) sheet showing DNA (deoxyribonucleic acid) sequences forming a DNA fingerprint

Computer print-out of a DNA sequence
DNA sequencing. Computer print-out of the sequence of bases in a sample of DNA (deoxyribonucleic acid). The sequence, which makes up the genetic code

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

Technician with rows of DNA thermocyclers
DNA replication. Technician with rows of thermocyclers used in research into the human genome at Celera Genomics, Maryland, USA, a rival to the Human Genome Project

Robot arm picks tray of DNA-containing bacteria
DNA cloning trays. Robot arm picking a tray of bacterial colonies which clone human DNA fragments for use in the Human Genome Project

Genetic analysis
Genetic research. Hand holding a vial containing a sample of human DNA (deoxyribonucleic acid). The print-out is the result of an analysis of this DNA

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

Genetic individuality. Conceptual computer artwork showing a womans head branded with a bar code, underneath which is the word DNA. DNA (deoxyribonucleic acid) carries genetic information

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

DNA autoradiogram on hand
DNA autoradiogram projected onto a hand. The bands (dark on light) of the autoradiogram show genetic sequences. The bands correspond to the nucleotide bases in a DNA (deoxyribonucleic acid) sample

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"Unlocking the Secrets of Life: Exploring the Fascinating World of DNA Research" In a world where science meets technology, a computer screen illuminates with a mesmerizing human genetic sequence. The intricate patterns and codes hold the key to unraveling our very existence. An awe-inspiring DNA autoradiogram captures our imagination as we witness art in its purest form. This visual representation of life's blueprint showcases the beauty hidden within our genes. DNA analysis takes center stage as scientists delve into the mysteries encoded within each strand. Through meticulous research, they decode nature's language and uncover profound insights into evolution and heredity. Venturing further, grapevine genome sequencing offers a glimpse into how plants adapt and thrive amidst changing environments. In New York's Long Island, Cold Spring Harbor provides an idyllic backdrop for groundbreaking discoveries at Cold Spring Harbor Laboratory. The laboratory buzzes with activity as DNA electrophoresis gels take shape – their vibrant hues symbolize progress towards understanding life's complexities. Microtubes stand ready alongside pipettes, poised to reveal new chapters in this ongoing scientific saga. DNA fingerprints emerge like unique signatures from samples loaded onto agarose gels. These distinctive patterns allow us to identify individuals with unparalleled accuracy, revolutionizing forensic investigations and paternity tests alike. With every experiment conducted under Genetics research F006 / 9088 or F006 / 9087, scientists push boundaries in their quest for knowledge. Their tireless dedication fuels breakthroughs that have far-reaching implications for medicine, agriculture, and beyond. As we peer into this captivating world of DNA research, we are reminded that it is not just about molecules; it is about unraveling the essence of life itself – who we are and where we come from.