Microarray Collection

Brain protein research. Computer artwork of a brain and coloured dots from a protein microarray. Protein microarrays can be used to follow protein interactions

Gene expression analysis C016 / 9697
MODEL RELEASED. Gene expression analysis. Researcher removing a microarray from a fluidics station. This machine is used to wash and stain a DNA (deoxyribonucleic acid)

Gene expression analysis C016 / 9698
MODEL RELEASED. Gene expression analysis. Researcher removing a microarray from a fluidics station. This machine is used to wash and stain a DNA (deoxyribonucleic acid)

Gene expression analysis C016 / 9699
MODEL RELEASED. Gene expression analysis. Researcher removing a microarray from a fluidics station. This machine is used to wash and stain a DNA (deoxyribonucleic acid)

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 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, 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, 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 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)

Genetic analysis, washing samples C019 / 0280
Genetic analysis. Machine in a genetics laboratory being used to wash and label genetic microarrays containing samples of DNA (deoxyribonucleic acid)

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

DNA microarray and double helix

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

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Microarray technology has revolutionized brain protein research and gene expression analysis. With the help of advanced techniques like C016 / 9697, C016 / 9698, and C016 / 9699 gene expression analysis, scientists can delve deeper into understanding the intricate workings of our genetic makeup. The process begins with genetic microarray preparation using C019 / 0277, where samples are carefully prepared for analysis. The next step involves placing these samples in a hybridization oven (C019 / 0275), which facilitates the binding of specific DNA sequences to their complementary probes on the microarray chip. To ensure accurate results, washing samples (C019 / 0279) becomes crucial as it removes any unbound or nonspecifically bound molecules from the chip's surface. This step is repeated using different washing solutions (C019 / 0278) to eliminate any potential interference. Once all preparations are complete, another round of hybridization takes place in the oven (C019/0276). This allows for further amplification and detection of gene expression signals on the microarray chip. Finally, genetic sample analysis using C019/0284 provides researchers with valuable insights into various aspects of genetics. By analyzing these samples and conducting additional rounds of washing (C019/0280), scientists can obtain precise data regarding gene expression levels and identify potential biomarkers associated with diseases or other biological processes. Microarray technology coupled with sophisticated techniques such as gene expression analysis and genetic sample preparation has opened up new avenues for scientific exploration. It enables us to unravel complex mechanisms within our genes that contribute to brain protein research and gain a better understanding of human biology at a molecular level.