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|When purchasing oil painting reproductions , many people would choose Van Gogh paintings which are among the most famous in the world. It is easy to recognized Van Gogh鈥檚 artworks because of his use of bright colors and hightly recognizable style. Notable pieces, such as his ‘Starry Night‘ and self portraits are admired by artists and art enthusiasts alike. Troubled with mental illness, financial ruin, and romantic heartbreak, Vincent’s troubled life is reflected in the honesty and emotion that his paintings are known for. His greatest paintings were created in the final two years of his life and are considered to be the most highly recognizable and expensive pieces of art today. Van Gogh has become an icon as a post impressionist painter and one of the most famous artists of all time.
Van Gogh鈥檚 life was tortured by mental illness, he suffered from many different illness, such as temporal lobe epilepsy and depression. And because those illness , he can not produce any art at all while his epilepsy worsened over the years. He slipped ito deeper depression as he can not experess himself. By 1889, he began suffering delusions that he was being poisoned and checked himself into an asylum in St. Remy. Athough he is limited to paint scenes of the asylum’s clinic and gardens, he created his most famous painting the starrying night during that time.
Vincent Van Gogh lived only until his thirty-seventh year. During his short life, Van Gogh only sold one painting, ‘The Red Vineyard’. Though his work is internationally recognized today, Europe was not ready for his particular style of artwork while he was alive. His paintings and sketches depicted the world the way that he saw it – beautiful while also being emotionally morbid. Even his use of colour, especially his fondness for golden yellows , can be directly linked to the way that he saw the world around him. His vision was tinted yellow, a side effect of the ****, Digitalis, which he used to help control his epilepsy.
Microarray Market to Flourish with an Impressive CAGR by 2024
by amanjaiswar01 · November 21, 2018
Microarray is an advanced molecular biology technique used to spot expressions of many genes at the same time. Gene expression is a crucial part of normal gene functioning and plays significant role in understanding normal growth and development of life. Any abnormalities in gene functioning can lead to critical disease. Research involving the study of many genes by traditional method is next to impossible. Microarrays serve the purpose. Thousands of genes can be arrayed at one time and analyzed accurately. It is fast, accurate, cost effective and easy to do assay design. Microarray can be used for many micro molecules such as DNA , RNA, proteins, and also for enzymes, carbohydrates, and tissues. It can be used for gene expression profiling, molecular interactions, biomarker profiling , enzyme activity, pathway identification, and mutations. Microarray is not limited to basic research, but has expanded to clinical research and diagnosis.
Based on type, microarrays can be segmented into DNA microarrays, protein microarrays, and antibody microarrays. DNA microarrays can be used for single nucleotide polymorphism-based diagnostics , forensic detection, gene expression profiling, etc. Large number of applications of DNA microarrays makes it a major segment of the Microarray Market. Protein microarrays are used in biomarker screening, enzyme substrate profiling, small molecule profiling, protein-protein interaction, etc. Antibody microarrays find applications in immunology in antibody specificity profiling , electronic immunoassays, etc.
In terms of application, microarrays can be segmented into gene expression profiling tool, comparative genomics tool, disease diagnosis, **** discovery, and toxicological research involving the uncharacterized microbial populations exposed to toxins and pollutants. With the help of microarrays some of the uncharacterized microbes can be identified and their original gene pattern and functionality can be studied. Microarray technology has provided a new insight into the evolutionary studies , as many arrays can be studied parallel that are specific for particular species.
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Microarrays can be used in comparative genomics and pathway probing. Microarrays provide information, though not complete but useful, about the gene or group of genes that can be studied further, illuminating the biological pathways. Microarray has helped in better understanding of some diseases, their pathogenesis, and genetics. Scientists are able to differentiate cancer on the basis of organs harboring tumor, leading to a better understanding of gene pattern in the tumor cells. Microarray has also benefitted therapeutics development. Better understanding of any **** addiction followed by better treatment in any patient is an example of it. In diagnosis of diseases , particularly at the time of outbreaks, where a quick and accurate diagnosis is required, microarray has gained recognition in identifying the causative agent or the pathogen and the specific strain or antigen (serotype).
Based on product type and analysis, the microarray market can be segmented into consumables and instruments. Large number of applications of microarray has led to high demand for consumables such as reagents, primers, buffers, DNA chips , and .