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Advanced Science, EarlyView.THUMPD1 drives a tumor‐suppressive signaling cascade in lung adenocarcinoma by promoting IGF2R expression. IGF2R associates with PPP2R1A to suppress AKT and activate AMPK, leading to SLC31A1 upregulation and copper accumulation. Elevated copper disrupts mitochondrial metabolism and induces excessive mitophagy, thereby restraining tumor growth and ...
Kai Wu +10 more
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Advanced Science, EarlyView.Oligonucleotide‐based fluorescence in situ hybridization probes were developed in the model citrus species Citrus maxima. These probes were applied to comparative karyotyping across 14 species in the Rutaceae family. This analysis revealed chromosomal evolution in lineages that diverged from Citrus nearly 52 million years ago.
Li He +9 more
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Bacterial Outer Membrane Vesicles in Potentiating Cancer Vaccines: Progress and Prospects
Advanced Science, EarlyView.Bacterial outer membrane vesicles (OMVs) have emerged as versatile platforms for cancer vaccine development owing to their intrinsic immunostimulatory properties and high engineering flexibility. This review summarizes OMV biology, immune mechanisms, and engineering strategies that enhance vaccine efficacy, discusses key translational challenges, and ...
Jiabeini Zhang +9 more
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Advanced Science, EarlyView.Photocatalytic treatment of glyphosate herbicide in agricultural wastewater is achieved through the cooperative effect of the local polarization field and dipole field mediated by lattice‐distorted carbon nitride. Glyphosate is completely degraded via selective C─P bond cleavage with a CO evolution rate of 1166 µmol g−1 h−1.
Daoping Chen +7 more
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Fluorescence In Situ Hybridization
2021Fluorescence in situ hybridization (FISH) is a method of using fluorescent probes to detect specific nucleic acid sequences within cells and their location. It can be used to detect a variety of cytogenetic variations, including chromosomal deletions, amplification, and translocation.
Min Hu, Weimin Wu
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Fluorescence In Situ Hybridization
2003In situ hybridization describes the annealing of a labeled nucleic acid to complementary nucleic acid sequences in a fixed target (e.g., chromosomes, free nuclei, nuclei in tissue sections, and DNA) followed by visualisation of the location of the probe.
Barbara A, Tate, Rachel L, Ostroff
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Fluorescence In Situ Hybridization
Clinics in Laboratory Medicine, 2011This chapter presents past and present FISH techniques and specific applications of FISH. Although array technology has revolutionized cytogenetics, FISH remains indispensible. While array technology provides a high resolution screen of the entire genome for gains and losses, it does not allow for visualization of the genomic structure of gains.
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Fluorescence in situ hybridization: 1998
Luminescence, 1999The journal provides comprehensive literature searches on all aspects of luminescence which will be published in most issues. These lists have been produced regularly since 1986 and in excess of 5500 references have been cited—some by year and some by specialized topic.
P E, Stanley, L J, Kricka
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Fluorescent In Situ Hybridization
2003Single-stranded DNA will recognize a complementary strand with high specificity under suitably controlled conditions. In situ hybridization (ISH) exploits this phenomenon by hybridizing an appropriately labeled singlestranded DNA “probe” to target sequences in situ in either dissociated cell preparations or tissue sections.
Sara A, Dyer, Elaine K, Green
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Fluorescent In Situ Hybridization (FISH)
2021In situ hybridization (ISH) is a technique that uses nucleic acid probes to allow for visualization of nucleic acid sequences in cellular/tissue preparations. Both enzymatic and fluorescent ISH studies can be used as adjunct studies, and in some cases are vital to making specific diagnoses. This chapter will focus on fluorescent in situ hybridization.
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