[1] M. J. Evans, M. H. Kaufman, "Establishment in culture of pluripotential cells from mouse embryos," Nature 292, 154-156 (1981).
[2] G. R. Martin, "Isolation of a pluripotent cell line from early mouse embryos cultured in medium conditioned by teratocarcinoma stem cells," Proc. Natl. Acad. Sci. USA 78, 7634-7638 (1981).
[3] J. A. Thomson, J. Itskovitz-Eldor, S. S. Shapiro, M. A. Waknitz, J. J. Swiergiel, V. S. Marshall, J. M. Jones, "Embryonic stem cell lines derived from human blastocysts," Science 282, 1145-1147 (1998).
[4] R. S. Beddington, E. J. Robertson, "An assessment of the developmental potential of embryonic stem cells in the midgestation mouse embryo," Development 105, 733-737 (1989).
[5] J. Rossant, "Stem cells and lineage development in the mammalian blastocyst," Reprod. Fertil. Dev. 19, 111-118 (2007).
[6] N. Christoforou, R. A. Miller, C. M. Hill, C. C. Jie, A. S. McCallion, J. D. Gearhart, "Mouse ES cellderived cardiac precursor cells are multipotent and facilitate identification of novel cardiac genes," J. Clin. Invest. 118, 894-903 (2008).
[7] R. C. Addis, M. K. Prasad, R. L. Yochem, X. Zhan, T. P. Sheets, J. Axelman, E. S. Patterson, M. J. Shamblott, "OCT3/4 regulates transcription of histone deacetylase 4 (Hdac4) in mouse embryonic stem cells," J. Cell. Biochem. 111, 391-401 (2010).
[8] J. Nichols, B. Zevnik, K. Anastassiadis, H. Niwa, D. Klewe-Nebenius, I. Chambers, H. Scholer, A. Smith, "Formation of pluripotent stem cells in the mammalian embryo depends on the POU transcription factor Oct4," Cell 95, 379-391 (1998).
[9] A. A. Avilion, S. K. Nicolis, L. H. Pevny, L. Perez, N. Vivian, R. Lovell-Badge, "Multipotent cell lineages in early mouse development depend on SOX2 function," Genes. Dev. 17, 126-140 (2003).
[10] I. Chambers, D. Colby, M. Robertson, J. Nichols, S. Lee, S. Tweedie, A. Smith, "Functional expression cloning of Nanog, a pluripotency sustaining factor in embryonic stem cells," Cell 113, 643-655 (2003).
[11] K. Mitsui, Y. Tokuzawa, H. Itoh, K. Segawa, M. Murakami, K. Takahashi, M. Maruyama, M. Maeda, S. Yamanaka, "The homeoprotein Nanog is required for maintenance of pluripotency in mouse epiblast and ES cells," Cell 113, 631-642 (2003).
[12] I. Chambers, S. R. Tomlinson, "The transcriptional foundation of pluripotency," Development 136, 2311-2322 (2009).
[13] B. Chance, H. Baltscheffsky, "Respiratory enzymes in oxidative phosphorylation. VII. Binding of intramitochondrial reduced pyridine nucleotide," J. Biol. Chem. 233, 736-739 (1958).
[14] B. Chance, B. Schoener, R. Oshino, F. Itshak, Y. Nakase, "Oxidation-reduction ratio studies of mitochondria in freeze-trapped samples. NADH and flavoprotein fluorescence signals," J. Biol. Chem. 254, 4764-4771 (1979).
[15] B. Chance, G. R. Williams, "Method for the localization of sites for oxidative phosphorylation," Nature 176, 250-254 (1955).
[16] B. Chance, G. R. Williams, "Respiratory enzymes in oxidative phosphorylation. The respiratory chain," J. Biol. Chem. 217, 429-438 (1955).
[17] B. Chance, "Pyridine nucleotide as an indicator of the oxygen requirements for energy-linked functions of mitochondria," Circ. Res. 38, 131-138 (1976).
[18] B. Chance, P. Cohen, F. Jobsis, B. Schoener, "Intracellular oxidation-reduction states in vivo," Science 137, 499-508 (1962).
[19] B. Chance, P. Cohen, F. Jobsis, B. Schoener, "Localized fluorometry of oxidation-reduction states of intracellular pyridine nucleotide in brain and kidney cortex of the anesthetized rat," Science 136, 325 (1962).
[20] B. Chance, N. Oshino, T. Sugano, A. Mayevsky, "Basic principles of tissue oxygen determination from mitochondrial signals," Adv. Exp. Med. Biol. 37A, 277-292 (1973).
[21] I. Hassinen, B. Chance, "Oxidation-reduction properties of the mitochondrial flavoprotein chain," Biochem. Biophys. Res. Commun. 31, 895-900 (1968).
[22] M. Ranji, S. Nioka, N. Xu, B. Wu, L. Z. Li, D. L. Jaggard, B. Chance, "Fluorescent images of mitochondrial redox states in in situ mouse hypoxic ischemic intestines," JIOHS 2, 365-374 (2009).
[23] B. Chance, "Spectrophotometric and kinetic studies of flavoproteins in tissues, cell suspensions, mitochondria and their fragments," in Flavins and Flavoproteins E. C. Slater, ed., pp. 498-510, Elsevier, Amsterdam (1966).
[24] K. Sato, Y. Kashiwaya, C. A. Keon, N. Tsuchiya, M. T. King, G. K. Radda, B. Chance, K. Clarke, R. L. Veech, "Insulin, ketone bodies, and mitochondrial energy transduction," Faseb. J. 9, 651-658 (1995).
[25] O. Yanes, J. Clark, D. M. Wong, G. J. Patti, A. Sanchez-Ruiz, H. P. Benton, S. A. Trauger, C. Desponts, S. Ding, G. Siuzdak, "Metabolic oxidation regulates embryonic stem cell differentiation," Nat. Chem. Biol. 6, 411 (2010).
[26] J. M. Reyes, S. Fermanian, F. Yang, S. Y. Zhou, S. Herretes, D. B. Murphy, J. H. Elisseeff, R. S. Chuck, "Metabolic changes in mesenchymal stem cells in osteogenic medium measured by autofluorescence spectroscopy," Stem Cells 24, 1213-1217 (2006).
[27] Y. Gu, Z. Qian, J. Chen, D. Blessington, N. Ramanujam, B. Chance, "High-resolution threedimensional scanning optical image system for intrinsic and extrinsic contrast agents in tissue," Rev. Sci. Instrum. 73, 172-178 (2002).
[28] B. Quistorff, J. C. Haselgrove, B. Chance, "High spatial resolution readout of 3-D metabolic organ structure: An automated, low-temperature redox ratio-scanning instrument," Anal. Biochem. 148, 389-400 (1985).
[29] B. Chance, "Optical Method," Ann. Rev. Biophys. Biophys. Chem. 20, 1-28 (1991).
[30] B. Chance, C. Barlow, J. Haselgrove, Y. Nakase, B. Quistorff, F. Matschinsky, A. Mayevsky, "Microheterogeneities of redox states of perfused and intact organs," in Microenvironments and Metabolic Compartmentation, P. A. Srere, E. W. Estabrook, eds., pp. 131-148, Academic Press, New York (1978).
[31] H. N. Xu, B. Wu, S. Nioka, B. Chance, L. Z. Li, "Biomedical optics calibration of redox scanning for tissue samples." 71742F, SPIE, San Jose, CA (2009).
[32] H. N. Xu, B. Wu, S. Nioka, B. Chance, L. Z. Li, "Quantitative redox scanning of tissue samples using a calibration procedure," JIOHS 2, 375-385 (2009).
[33] L. Z. Li, R. Zhou, H. N. Xu, L. Moon, T. Zhong, E. J. Kim, H. Qiao, R. Reddy, D. Leeper, B. Chance, J. D. Glickson, "Quantitative magnetic resonance and optical imaging biomarkers of melanoma metastatic potential," Proc. Natl. Acad. Sci. USA 106, 6608-6613 (2009).
[34] H. N. Xu, S. Nioka, J. D. Glickson, B. Chance, L. Z. Li, "Quantitative mitochondrial redox imaging of breast cancer metastatic potential," J. Biomed. Optics 15, 036010 (2010).
[35] H. N. Xu, S. Nioka, B. Chance, L. Z. Li, "Heterogeneity of mitochondrial redox state in premalignant pancreas in a PTEN null transgenic mouse model," Adv. Exp. Med. Biol. (2011) [in press].
[36] L. Z. Li, H. N. Xu, M. Ranji, S. Nioka, B. Chance, "Mitochondrial redox imaging for cancer diagnostic and therapeutic studies," J. Innov. Opt. Health Sci. 2, 325-341 (2009).
[37] Z. Zhang, D. Blessington, H. Li, T. M. Busch, J. Glickson, Q. Luo, B. Chance, G. Zheng, "Redox ratio of mitochondria as an indicator for the response of photodynamic therapy," J. Biomed. Opt. 9, 772-778 (2004).
[38] N. C. Shaner, R. E. Campbell, P. A. Steinbach, B. N. Giepmans, A. E. Palmer, R. Y. Tsien, "Improved monomeric red, orange and yellow fluorescent proteins derived from Discosoma sp. red fluorescent protein," Nat. Biotechnol. 22, 1567-1572 (2004).
[39] D. J. Rodda, J. L. Chew, L. H. Lim, Y. H. Loh, B. Wang, H. H. Ng, P. Robson, "Transcriptional regulation of nanog by OCT4 and SOX2," J. Biol. Chem. 280, 24731-24737 (2005).
[40] R. E. Davey, P. W. Zandstra, "Spatial organization of embryonic stem cell responsiveness to autocrine gp130 ligands reveals an autoregulatory stem cell niche," Stem Cells 24, 2538-2548 (2006).
[41] W. L. Rice, D. L. Kaplan, I. Georgakoudi, "Twophoton microscopy for non-invasive, quantitative monitoring of stem cell differentiation," PLoS One 5(4), C10075 (2010).
[42] R. Peerani, K. Onishi, A. Mahdavi, E. Kumacheva, P. W. Zandstra, "Manipulation of signaling thresholds in "engineered stem cell niches" identifies design criteria for pluripotent stem cell screens," PLoS One 4, e6438 (2009).
[43] K. Ozawa, B. Chance, A. Tanaka, S. Iwata, T. Kitai, I. Ikai, "Linear correlation between acetoacetate β-hydroxybutyrate in arterial blood and oxidized flavoprotein reduced pyridine-nucleotide in freeze-trapped human liver-tissue," Biochimica Et Biophysica Acta 1138, 350-352 (1992).
[44] L. Z. Li, R. Zhou, T. Zhong, L. Moon, E. J. Kim, H. Qiao, S. Pickup, M. J. Hendrix, D. Leeper, B. Chance, J. D. Glickson, "Predicting melanoma metastatic potential by optical and magnetic resonance imaging," Adv. Exp. Med. Biol. 599, 67-78 (2007).