Add to ORKGSkin-deep: The combination of a near-infrared fluorescent protein (iRFP) and deep-tissue photoacoustic tomography clearly demonstrates the superiority of iRFP over other genetically encoded probes. Impressive resolution (280 μm lateral and 75 μm axial) was obtained at a depth of 4 mm in a live animal, and volumetric images of a tumor were produced (see image), thus allowing the spatially resolved monitoring of its development
Photoacoustic (PA) computed tomography (PACT) benefits from genetically encoded probes with photochr...
Photoacoustic tomography (PAT) with genetically encoded near-infrared probes enables visualization o...
Engineering of fluorescent proteins (FPs) has followed a trend of achieving longer fluorescence wave...
Skin-deep: The combination of a near-infrared fluorescent protein (iRFP) and deep-tissue photoacoust...
Genetically encoded probes powerfully and non-invasively target specific tissues, cells, and subcell...
Non-invasive imaging of biological processes in vivo is invaluable in advancing biology. Photoacoust...
Purpose: A primary enabling feature of near-infrared fluorescent proteins (FPs) and fluorescent prob...
PURPOSE: A primary enabling feature of near-infrared fluorescent proteins (FPs) and fluorescent prob...
While the use of bioluminescent proteins for molecular imaging is a powerful technology to further o...
From PubMed via Jisc Publications RouterHistory: received 2020-12-23, accepted 2021-04-07Publication...
Optical imaging of genetically encoded probes has revolutionized biomedical studies by providing val...
ABSTRACT: Small animal fluorescence molecular imaging (FMI) can be a powerful tool for preclinical d...
Detection of biological features at the cellular level with sufcient sensitivity in complex tissue r...
Near-infrared fluorescent proteins are in high demand for in vivo imaging. We developed four spectra...
Photoacoustic tomography (PAT) of genetically encoded probes allows for imaging of targeted biologic...
Photoacoustic (PA) computed tomography (PACT) benefits from genetically encoded probes with photochr...
Photoacoustic tomography (PAT) with genetically encoded near-infrared probes enables visualization o...
Engineering of fluorescent proteins (FPs) has followed a trend of achieving longer fluorescence wave...
Skin-deep: The combination of a near-infrared fluorescent protein (iRFP) and deep-tissue photoacoust...
Genetically encoded probes powerfully and non-invasively target specific tissues, cells, and subcell...
Non-invasive imaging of biological processes in vivo is invaluable in advancing biology. Photoacoust...
Purpose: A primary enabling feature of near-infrared fluorescent proteins (FPs) and fluorescent prob...
PURPOSE: A primary enabling feature of near-infrared fluorescent proteins (FPs) and fluorescent prob...
While the use of bioluminescent proteins for molecular imaging is a powerful technology to further o...
From PubMed via Jisc Publications RouterHistory: received 2020-12-23, accepted 2021-04-07Publication...
Optical imaging of genetically encoded probes has revolutionized biomedical studies by providing val...
ABSTRACT: Small animal fluorescence molecular imaging (FMI) can be a powerful tool for preclinical d...
Detection of biological features at the cellular level with sufcient sensitivity in complex tissue r...
Near-infrared fluorescent proteins are in high demand for in vivo imaging. We developed four spectra...
Photoacoustic tomography (PAT) of genetically encoded probes allows for imaging of targeted biologic...
Photoacoustic (PA) computed tomography (PACT) benefits from genetically encoded probes with photochr...
Photoacoustic tomography (PAT) with genetically encoded near-infrared probes enables visualization o...
Engineering of fluorescent proteins (FPs) has followed a trend of achieving longer fluorescence wave...