Dna Research Collection (page 3)

DNA autoradiogram and codons. Conceptual computer artwork of a DNA autoradiogram (yellow) with superimposed triplets of letters (white)

Robot loading DNA in automated genome mapping
Human genome project. A robot arm loads DNA (deoxyribonucleic acid) into plastic plates in an automated laboratory dedicated to mapping the human genome

Biological computing

Computers in genetic research. Conceptual computer artwork showing a computer monitor containing DNA double helices against a backdrop of cells (pink)

Artwork of DNA sequences and chromosomes
DNA sequences & chromosomes. Computer artwork of an autoradiogram of DNA (deoxyribonucleic acid) sequences. A close up view of a sequence is superimposed in the foreground

Computer screen display of DNA sequencing pattern
DNA sequencing. Computer display of a DNA (deoxyribonucleic acid) sequencing pattern showing in colour the four chemical bases in DNA

Scientist examining DNA sequencing autoradiogram on a light box. Each group of four strips represents the nucleotide sequence of AGCT (Adenine-Guanine-Cytosine-Thymine)

Genetic identity. Conceptual computer artwork of a hand, a fingerprint and a DNA microarray. These represent genetic fingerprinting and genetic identity

Automated DNA sequencers for human genome project
Human genome research. Automated DNA sequencers used for the Human Genome Project. The human genome project aims to find the base sequence of all the genes in human DNA (deoxyribonucleic acid)

DNA BioChip inventors examine test results

Eye and DNA autoradiogram
DNA autoradiogram reflected in an eye, computer artwork. The bands (pink and white) that make up the autoradiogram show the genetic sequence formed by the nucleotide bases in a DNA

Scientist with ethidium bromide stained DNA gel
MODEL RELEASED: DNA electrophoresis. A scientist looking at DNA fragments in an electrophoresis gel. The fragments have been stained with ethidium bromide

Gloved fingers remove DNA sample from cryostorage

DNA fingerprints: banding on DNA autoradiograms
DNA fingerprints. Banding patterns on DNA sequenc- ing autoradiograms forming " genetic fingerprints" which enables genes to be mapped

Microtubes, pipettor (pipette) tip & DNA sequence
DNA research. View of the tip of a pipettor (upper left), a type of automatic pipette, and microtubes in a rack on top of a DNA sequence

Computer artwork of DNA autoradiogram sequences
DNA sequences. Computer illustration of autoradiograms of DNA (deoxyribonucleic acid) sequences on a page which is peeling back

DNA and nerve cell, computer artwork
DNA (Deoxyribonucleic acid) strand and a nerve cell, computer artwork

Sequencing genes, conceptual artwork. Autoradiogram (orange) surrounded by a green glow. Autoradiograms show the order of nucleotide bases (basic building blocks)

DNA sample. Sample vial containing DNA (deoxyribonucleic acid), the molecule that encodes the hereditary characteristics of living organisms. The vial has the letters DMD on its label

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

Male technician examines DNA sequences

DNA sequence on a computer monitor screen
DNA sequence. DNA sequence or " genetic fingerprint" on a computer monitor screen. Each coloured band represents one of the bases that make up the genetic code of this sample of DNA

Technician examines results of DNA electrophoresis
MODEL RELEASED. DNA electrophoresis. Researcher looks at samples of DNA (DeoxyriboNucleic Acid) fragments which have been separated by electro- phoresis

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

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

DNA sequencing

Artwork of male figure with genetic sequence
Human genome. Computer illustration representing the human genome, showing a historical drawing of a man by Leonardo da Vinci, seen with a DNA (deoxyribonucleic acid) genetic sequence (blue)

Male technician examines DNA fingerprints
MODEL RELEASED. DNA fingerprinting. Male technician examines a DNA sequencing autoradiogram or " genetic fingerprint"

DNA sequence magnified by a magnifying glass
DNA sequences. A magnifying glass over two DNA sequences. The sequence also known as an autoradiogram is four rows of irregularly spaced black bands

DNA fingerprinting for proving family relationship
DNA fingerprinting used to prove family relation- ships. The photo shows part of an X-ray (or autoradiograph) of bands of DNA produced by the technique of electrophoresis in an agarose gel

DNA microarray. Computer display of a section of a genome (the sequenced genes of an organism) produced by DNA (deoxyribonucleic acid) microarray technology

DNA BioChip being scanned by a laser
DNA BioChip scanning. View of a DNA BioChip being scanned by a laser. The BioChip allows cheap and rapid simultaneous analyses for infectious organisms to be carried out on samples of food and blood

DNA sequence
Genetic sequence. Computer artwork of a sequenced section of DNA (deoxyribonucleic acid) represented as a series of multicoloured bands and a graph (across bottom)

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

Mummified foot resting on DNA autoradiograms
Mummys foot. Close-up of the foot of an Egyptian mummy on autoradiograms. The autoradiograms are X- ray prints made from DNA extracted from the foot

Robot picking bacteria containing human DNA
Human genome research. Robot picker (upper centre) as it selects bacterial colonies in petri dishes which contain human DNA for the Human Genome Project

DNA fingerprint autoradiograms
Gene mapping. Deoxyribonucleic Acid (DNA) autorad- iograms prepared as part of gene mapping studies. Banding patterns on the autoradiogram form a genetic fingerprint

Biotechnology profits. Conceptual computer artwork showing a DNA molecule with dollar signs as the nucleotide chains linking the two helices

DNA research. DNA autoradiogram used for finding the base sequence of a segment of DNA (deoxyribonucleic acid). DNA is the molecule that controls the growth and development of all living things

DNA autoradiograms and numbers. Conceptual computer artwork of DNA autoradiograms (orange) superimposed over random numbers (white)

Genetic information storage. Conceptual computer artwork representing the storage in digital form of data derived from genetic research

Computer artwork depicting embryo paternity test
Embryo paternity testing. Computer artwork of a paternity test of an embryo (at upper right). A sample of DNA, deoxyribonucleic acid (orange & red strand), is taken from the embryo and its parents

Conceptual artwork of human genetic analysis
Human genetic analysis. Conceptual computer artwork of a human passing through a scanning device, representing human genetic analysis for health and medical purposes

Researcher holding an autoradiogram
MODEL RELEASED. Researcher holding an autoradiogram

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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.