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Автор: Grafiati
Опубліковано: 10 грудня 2022
Оновлено: 28 січня 2023

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1

Parekh, Bhagavati. "Bioinformatics Applications in life Sciences: Concepts and Stance." Paripex - Indian Journal Of Research 3, no. 3 (January 15, 2012): 72–74. http://dx.doi.org/10.15373/22501991/mar2014/78.

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2

Orlov, Yuriy L., and Anastasia A. Anashkina. "Life: Computational Genomics Applications in Life Sciences." Life 11, no. 11 (November 9, 2021): 1211. http://dx.doi.org/10.3390/life11111211.

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3

Popov, Alexey, Tapio Fabritius, and Victor N. Zadkov. "Laser applications in life sciences." Journal of Biophotonics 4, no. 3 (February 1, 2011): 141–42. http://dx.doi.org/10.1002/jbio.201100502.

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4

Pinera, Enrique, and Vivian Stojanoff. "Editorial: Synchrotron Applications in Life Sciences." Protein & Peptide Letters 23, no. 999 (January 22, 2016): 1. http://dx.doi.org/10.2174/0929866523999160122110609.

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5

Sousa, Sílvia A., Jorge H. Leitão, Raul C. Martins, João M. Sanches, Jasjit S. Suri, and Alejandro Giorgetti. "Bioinformatics Applications in Life Sciences and Technologies." BioMed Research International 2016 (2016): 1–2. http://dx.doi.org/10.1155/2016/3603827.

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6

Faggella, Daniel. "AI in the Life Sciences: Six Applications." Genetic Engineering & Biotechnology News 38, no. 9 (May 2018): 10–11. http://dx.doi.org/10.1089/gen.38.09.05.

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7

Szökefalvi-Nagy, Zoltán. "Applications of PIXE in the life sciences." Biological Trace Element Research 43-45, no. 1 (December 1994): 73–78. http://dx.doi.org/10.1007/bf02917301.

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8

Li, G. P., and Mark Bachman. "Materials for Devices Applications in Life Sciences." Materials Science Forum 510-511 (March 2006): 1066–69. http://dx.doi.org/10.4028/www.scientific.net/msf.510-511.1066.

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Анотація:
The unprecedented technology advancements in miniaturizing integrated circuits, and the resulting plethora of sophisticated, low cost electronic devices demonstrate the impact that micro/nano scale engineering can have when applied only to the area of electrical and computer engineering. Current research efforts in micro/nano fabrication technology for implementing integrated devices hope to yield similar revolutions in life science fields. The integrated life chip technology requires the integration of multiple materials, phenomena, technologies, and functions at micro/nano scales. By cross linking the individual engineering fields through micro/nano technology, various miniaturized life chips have been developed at UCI that will have future impacts in the application markets such as medicine and healthcare.
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9

Galvin, Paul, Narayanasamy Padmanathan, Kafil M. Razeeb, James F. Rohan, Lorraine C. Nagle, Amelie Wahl, Eric Moore, Walter Messina, Karen Twomey, and Vladimir Ogurtsov. "Nanoenabling electrochemical sensors for life sciences applications." Journal of Materials Research 32, no. 15 (August 2017): 2883–904. http://dx.doi.org/10.1557/jmr.2017.290.

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10

Polesel-Maris, J., L. Aeschimann, A. Meister, R. Ischer, E. Bernard, T. Akiyama, M. Giazzon, et al. "Piezoresistive cantilever array for life sciences applications." Journal of Physics: Conference Series 61 (April 1, 2007): 955–59. http://dx.doi.org/10.1088/1742-6596/61/1/189.

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11

Holgate, S. A. "Life inspires applications." Science 346, no. 6207 (October 16, 2014): 390. http://dx.doi.org/10.1126/science.346.6207.390.

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12

Rudino Pinera, Enrique, and Vivian Stojanoff. "Editorial (Thematic Issue: Synchrotron Applications in Life Sciences)." Protein & Peptide Letters 23, no. 3 (February 15, 2016): 200. http://dx.doi.org/10.2174/092986652303160215154208.

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13

Aguilar, Z. P., I. Al-Ogaidi, S. Suri, H. Gou, N. Wu, H. Xu, H. Wei, and A. Wang. "Nano and Bio Sensors for Life Sciences Applications." ECS Transactions 64, no. 1 (August 12, 2014): 143–48. http://dx.doi.org/10.1149/06401.0143ecst.

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14

Nayak, Dalia. "Multitracer techniques: applications in chemical and life sciences." Applied Radiation and Isotopes 54, no. 2 (February 2001): 195–202. http://dx.doi.org/10.1016/s0969-8043(00)00195-0.

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15

Darie, Costel C. "Mass Spectrometry and its Applications in Life Sciences." Australian Journal of Chemistry 66, no. 7 (2013): 719. http://dx.doi.org/10.1071/ch13284.

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Анотація:
Deciphering the biological and clinical significance of the proteins is investigated by mass spectrometry in a relatively new field, named proteomics. Mass spectrometry is, however, also used in chemistry for many years. In this Research Front we try to show the potential use of mass spectrometry in chemical, environmental and biomedical research and also to illustrate the applications of mass spectrometry in proteomics.
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16

Cooper, Malcolm. "Applications of SR in life sciences and chemistry." Synchrotron Radiation News 10, no. 1 (January 1997): 14–15. http://dx.doi.org/10.1080/08940889708260860.

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17

Nicolas, J. C. "Applications of low-light imaging to life sciences." Journal of Bioluminescence and Chemiluminescence 9, no. 3 (May 1994): 139–44. http://dx.doi.org/10.1002/bio.1170090307.

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18

Jakůbek, J. "Semiconductor Pixel detectors and their applications in life sciences." Journal of Instrumentation 4, no. 03 (March 17, 2009): P03013. http://dx.doi.org/10.1088/1748-0221/4/03/p03013.

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19

Shipp, Dustin W., Faris Sinjab, and Ioan Notingher. "Raman spectroscopy: techniques and applications in the life sciences." Advances in Optics and Photonics 9, no. 2 (June 9, 2017): 315. http://dx.doi.org/10.1364/aop.9.000315.

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20

Bains, William. "Applications of space-industry technologies to the life sciences." Trends in Biotechnology 13, no. 1 (January 1995): 1–6. http://dx.doi.org/10.1016/s0167-7799(00)88891-5.

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21

Yap, Pew-Thian, Guorong Wu, and Dinggang Shen. "Human Brain Connectomics: Networks, Techniques, and Applications [Life Sciences." IEEE Signal Processing Magazine 27, no. 4 (July 2010): 131–34. http://dx.doi.org/10.1109/msp.2010.936775.

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22

Aeschimann, Laure, André Meister, Terunobu Akiyama, Benjamin W. Chui, Philippe Niedermann, Harry Heinzelmann, Nico F. De Rooij, Urs Staufer, and Peter Vettiger. "Scanning probe arrays for life sciences and nanobiology applications." Microelectronic Engineering 83, no. 4-9 (April 2006): 1698–701. http://dx.doi.org/10.1016/j.mee.2006.01.201.

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23

Priezzhev, Alexander V., Herbert Schneckenburger, and Valery V. Tuchin. "Special Section Guest Editorial: Laser Applications in Life Sciences." Journal of Biomedical Optics 20, no. 5 (May 5, 2015): 051001. http://dx.doi.org/10.1117/1.jbo.20.5.051001.

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24

Sreenivasan, Varun K. A., Andrei V. Zvyagin, and Ewa M. Goldys. "Luminescent nanoparticles and their applications in the life sciences." Journal of Physics: Condensed Matter 25, no. 19 (April 24, 2013): 194101. http://dx.doi.org/10.1088/0953-8984/25/19/194101.

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25

Krishnan, Arun. "A survey of life sciences applications on the grid." New Generation Computing 22, no. 2 (June 2004): 111–25. http://dx.doi.org/10.1007/bf03040950.

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26

Cannataro, Mario, Pietro Hiram Guzzi, and Alessia Sarica. "Data mining and life sciences applications on the grid." Wiley Interdisciplinary Reviews: Data Mining and Knowledge Discovery 3, no. 3 (April 18, 2013): 216–38. http://dx.doi.org/10.1002/widm.1090.

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27

Gadha, V. P., and V. Thulasi. "Applications of synchrotron in soil science." AN ASIAN JOURNAL OF SOIL SCIENCE 15, no. 2 (December 15, 2020): 111–15. http://dx.doi.org/10.15740/has/ajss/15.2/111-115.

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Анотація:
Synchrotron radiations (SR) are emerging as a real-time probing tool for the wide range of applied sciences. Since the beginning of 1990s, synchrotron-based techniques have become increasingly employed in various fields of life science. The unique properties of Synchrotron radiations break the limits to characterize the material properties than previous laboratory based techniques. The use of SR in soil sciences also has increased dramatically in the last decade. SR techniques are used to assess soil physical, chemical and biological properties. Besides that SR techniques are also used in soil pollution studies and rhizosphere science. So this paper intends to explain about the instrument synchrotron, its techniques used in soil science and applications in soil science. Furthermore the paper tries to elucidate a few relevant researches in soil science which involves SR techniques.
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28

Neprokin, Alexey, Christian Broadway, Teemu Myllylä, Alexander Bykov, and Igor Meglinski. "Photoacoustic Imaging in Biomedicine and Life Sciences." Life 12, no. 4 (April 14, 2022): 588. http://dx.doi.org/10.3390/life12040588.

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Анотація:
Photo-acoustic imaging, also known as opto-acoustic imaging, has become a widely popular modality for biomedical applications. This hybrid technique possesses the advantages of high optical contrast and high ultrasonic resolution. Due to the distinct optical absorption properties of tissue compartments and main chromophores, photo-acoustics is able to non-invasively observe structural and functional variations within biological tissues including oxygenation and deoxygenation, blood vessels and spatial melanin distribution. The detection of acoustic waves produced by a pulsed laser source yields a high scaling range, from organ level photo-acoustic tomography to sub-cellular or even molecular imaging. This review discusses significant novel technical solutions utilising photo-acoustics and their applications in the fields of biomedicine and life sciences.
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29

Murthy, Tal, and David Yeo. "Life Sciences Discovery and Technology Highlights." SLAS TECHNOLOGY: Translating Life Sciences Innovation 26, no. 1 (January 22, 2021): 117–20. http://dx.doi.org/10.1177/2472630320981923.

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30

Yeo, David, and Tal Murthy. "Life Sciences Discovery and Technology Highlights." SLAS Technology 26, no. 6 (December 2021): 681–87. http://dx.doi.org/10.1177/24726303211055063.

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31

Murthy, Tal, and David Yeo. "Life Sciences Discovery and Technology Highlights." SLAS Technology 27, no. 1 (February 2022): 94–96. http://dx.doi.org/10.1016/j.slast.2022.01.004.

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32

Murthy, Tal, and David Yeo. "Life Sciences Discovery and Technology Highlights." SLAS TECHNOLOGY: Translating Life Sciences Innovation 26, no. 5 (September 20, 2021): 547–51. http://dx.doi.org/10.1177/24726303211042557.

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33

Yeo, David, and Tal Murthy. "Life Sciences Discovery and Technology Highlights." SLAS TECHNOLOGY: Translating Life Sciences Innovation 26, no. 4 (July 20, 2021): 415–22. http://dx.doi.org/10.1177/24726303211027823.

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34

Murthy, Tal, and Xiaole Mao. "Life Sciences Discovery and Technology Highlights." Journal of Laboratory Automation 21, no. 3 (June 2016): 478–82. http://dx.doi.org/10.1177/2211068216643474.

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35

Clark, Alex. "Mobile applications for life sciences: perspectives, limitations, and real examples." EMBnet.journal 19, B (October 14, 2013): 19. http://dx.doi.org/10.14806/ej.19.b.748.

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36

Rumpold, Birgit A., Michael Klocke, and Oliver Schlüter. "Insect biodiversity: underutilized bioresource for sustainable applications in life sciences." Regional Environmental Change 17, no. 5 (May 7, 2016): 1445–54. http://dx.doi.org/10.1007/s10113-016-0967-6.

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37

Owen, Robert B., Alex A. Zozulya, Michael R. Benoit, and David M. Klaus. "Microgravity materials and life sciences research applications of digital holography." Applied Optics 41, no. 19 (July 1, 2002): 3927. http://dx.doi.org/10.1364/ao.41.003927.

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38

Welch, John T. "ChemInform Abstract: Applications of Pentafluorosulfanyl Substitution in Life Sciences Research." ChemInform 43, no. 50 (November 29, 2012): no. http://dx.doi.org/10.1002/chin.201250259.

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39

Atzrodt, Jens, Volker Derdau, William J. Kerr, and Marc Reid. "Deuterium- and Tritium-Labelled Compounds: Applications in the Life Sciences." Angewandte Chemie International Edition 57, no. 7 (January 4, 2018): 1758–84. http://dx.doi.org/10.1002/anie.201704146.

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40

Grise, Graziela, and Michael Meyer-Hermann. "Surface reconstruction using Delaunay triangulation for applications in life sciences." Computer Physics Communications 182, no. 4 (April 2011): 967–77. http://dx.doi.org/10.1016/j.cpc.2010.12.037.

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41

Favia, Pietro, Eloisa Sardella, and Hiromasa Tanaka. "Special issue: Advanced applications of plasmas in Life Sciences 2020." Plasma Processes and Polymers 17, no. 10 (October 2020): 2070028. http://dx.doi.org/10.1002/ppap.202070028.

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42

Löhner, Rainald, Juan Cebral, Orlando Soto, Peter Yim, and James E. Burgess. "Applications of patient-specific CFD in medicine and life sciences." International Journal for Numerical Methods in Fluids 43, no. 6-7 (October 10, 2003): 637–50. http://dx.doi.org/10.1002/fld.544.

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43

Robila, Mihaela, and Stefan A. Robila. "Applications of Artificial Intelligence Methodologies to Behavioral and Social Sciences." Journal of Child and Family Studies 29, no. 10 (December 12, 2019): 2954–66. http://dx.doi.org/10.1007/s10826-019-01689-x.

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44

Meschini, Stefania. "Correlative Microscopy in Life and Materials Sciences." European Journal of Histochemistry 61, s4 (November 2, 2017): 1. http://dx.doi.org/10.4081/ejh.2017.2864.

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Анотація:
<p class="p1">The conference aims to update participants on innovative microscopic equipment which, by correlating the various features of optical and electron microscopy, can maximize the potential applications of morphological and ultrastructural methods. The conference will address the limits of sample preparation, the optimization of image processing, and the critical analysis of experimental results with different materials.</p>
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45

Nakano, Michihiko, Masafumi Inaba, and Junya Suehiro. "Applications of dielectrophoresis in life science." Electrophoresis Letters 64, no. 1 (2020): 15–18. http://dx.doi.org/10.2198/electroph.64.15.

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46

Kuroki, Hidenori, Ihor Tokarev, and Sergiy Minko. "Responsive Surfaces for Life Science Applications." Annual Review of Materials Research 42, no. 1 (August 4, 2012): 343–72. http://dx.doi.org/10.1146/annurev-matsci-070511-155044.

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47

Salehpour, M., K. Håkansson, P. Westermark, G. Antoni, G. Wikström, and G. Possnert. "Life Science Applications Utilizing Radiocarbon Tracing." Radiocarbon 55, no. 2 (2013): 865–73. http://dx.doi.org/10.1017/s0033822200058021.

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Анотація:
Radiocarbon-based accelerator mass spectrometry (AMS) facilities at Uppsala University include a measurement center for archaeological applications and a separate entity dedicated to life science research. This paper addresses the latter, with the intention of giving a brief description of the biomedical activities at our laboratory, as well as presenting new data. The ultra-small sample preparation method, which can be used down to a few μg C samples, is outlined and complemented with new results. Furthermore, it is shown that the average secondary ion current performance for small samples can be improved by increasing the distance between the cathode surface and the pressed graphite surface. Finally, data is presented for a new application: Amyloidoses are a group of diseases where the conformational changes in specific proteins' structure lead to the formation of extracellular deposits that spread and increase in mass and eventually may lead to total organ failure and death. The formation timeframe is unknown and yet it is an important clue for the elucidation of the mechanism. We present results on bomb-peak dating of 4 different types of purified amyloid proteins from human postmortem heart and spleen samples. The data indicates that the average measured age of the carbon originating from the systemic amyloid types studied here correspond to a few years before the death of the subject. This suggests that a major part of the fibril formation takes place during the last few years before death, rather than as an accumulation of amyloid deposits over decades.
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48

Köhler, J. Michael. "Editorial: Microtechnology for life science applications." Engineering in Life Sciences 11, no. 2 (April 2011): 116–17. http://dx.doi.org/10.1002/elsc.201190011.

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49

Langemann, Dirk. "Supply chains in life-science applications." PAMM 8, no. 1 (December 2008): 10979–80. http://dx.doi.org/10.1002/pamm.200810979.

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50

Tavakoli, Kamand, Alireza Pour-Aboughadareh, Farzad Kianersi, Peter Poczai, Alireza Etminan, and Lia Shooshtari. "Applications of CRISPR-Cas9 as an Advanced Genome Editing System in Life Sciences." BioTech 10, no. 3 (July 6, 2021): 14. http://dx.doi.org/10.3390/biotech10030014.

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Анотація:
Targeted nucleases are powerful genomic tools to precisely change the target genome of living cells, controlling functional genes with high exactness. The clustered regularly interspaced short palindromic repeats associated protein 9 (CRISPR-Cas9) genome editing system has been identified as one of the most useful biological tools in genetic engineering that is taken from adaptive immune strategies for bacteria. In recent years, this system has made significant progress and it has been widely used in genome editing to create gene knock-ins, knock-outs, and point mutations. This paper summarizes the application of this system in various biological sciences, including medicine, plant science, and animal breeding.
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