| Year |
Citation |
Score |
| 2022 |
Hoshino H, Narikawa R. Novel cyanobacteriochrome photoreceptor with the second Cys residue showing atypical orange/blue reversible photoconversion. Photochemical & Photobiological Sciences : Official Journal of the European Photochemistry Association and the European Society For Photobiology. PMID 36156209 DOI: 10.1007/s43630-022-00310-3 |
0.374 |
|
| 2022 |
Kuwasaki Y, Suzuki K, Yu G, Yamamoto S, Otabe T, Kakihara Y, Nishiwaki M, Miyake K, Fushimi K, Bekdash R, Shimizu Y, Narikawa R, Nakajima T, Yazawa M, Sato M. A red light-responsive photoswitch for deep tissue optogenetics. Nature Biotechnology. PMID 35697806 DOI: 10.1038/s41587-022-01351-w |
0.456 |
|
| 2022 |
Miyake K, Kimura H, Narikawa R. Identification of significant residues for intermediate accumulation in phycocyanobilin synthesis. Photochemical & Photobiological Sciences : Official Journal of the European Photochemistry Association and the European Society For Photobiology. 21: 437-446. PMID 35394642 DOI: 10.1007/s43630-022-00198-z |
0.466 |
|
| 2021 |
Makita Y, Suzuki S, Fushimi K, Shimada S, Suehisa A, Hirata M, Kuriyama T, Kurihara Y, Hamasaki H, Okubo-Kurihara E, Yoshitake K, Watanabe T, Sakuta M, Gojobori T, Sakami T, ... Narikawa R, et al. Author Correction: Identification of a dual orange/far-red and blue light photoreceptor from an oceanic green picoplankton. Nature Communications. 12: 7356. PMID 34916505 DOI: 10.1038/s41467-021-27712-8 |
0.404 |
|
| 2021 |
Makita Y, Suzuki S, Fushimi K, Shimada S, Suehisa A, Hirata M, Kuriyama T, Kurihara Y, Hamasaki H, Okubo-Kurihara E, Yoshitake K, Watanabe T, Sakuta M, Gojobori T, Sakami T, ... Narikawa R, et al. Identification of a dual orange/far-red and blue light photoreceptor from an oceanic green picoplankton. Nature Communications. 12: 3593. PMID 34135337 DOI: 10.1038/s41467-021-23741-5 |
0.471 |
|
| 2021 |
Tachibana SR, Tang L, Zhu L, Takeda Y, Fushimi K, Ueda Y, Nakajima T, Kuwasaki Y, Sato M, Narikawa R, Fang C. An Engineered Biliverdin-Compatible Cyanobacteriochrome Enables a Unique Ultrafast Reversible Photoswitching Pathway. International Journal of Molecular Sciences. 22. PMID 34065754 DOI: 10.3390/ijms22105252 |
0.322 |
|
| 2021 |
Kirpich JS, Chang CW, Franse J, Yu Q, Escobar FV, Jenkins AJ, Martin SS, Narikawa R, Ames JB, Lagarias JC, Larsen DS. Comparison of the Forward and Reverse Photocycle Dynamics of Two Highly Similar Canonical Red/Green Cyanobacteriochromes Reveals Unexpected Differences. Biochemistry. PMID 33439010 DOI: 10.1021/acs.biochem.0c00796 |
0.503 |
|
| 2021 |
Fushimi K, Narikawa R. Phytochromes and Cyanobacteriochromes: Photoreceptor Molecules Incorporating a Linear Tetrapyrrole Chromophore. Advances in Experimental Medicine and Biology. 1293: 167-187. PMID 33398813 DOI: 10.1007/978-981-15-8763-4_10 |
0.361 |
|
| 2020 |
Tachibana SR, Tang L, Chen C, Zhu L, Takeda Y, Fushimi K, Seevers TK, Narikawa R, Sato M, Fang C. Transient electronic and vibrational signatures during reversible photoswitching of a cyanobacteriochrome photoreceptor. Spectrochimica Acta. Part a, Molecular and Biomolecular Spectroscopy. 250: 119379. PMID 33401182 DOI: 10.1016/j.saa.2020.119379 |
0.4 |
|
| 2020 |
Fushimi K, Hoshino H, Shinozaki-Narikawa N, Kuwasaki Y, Miyake K, Nakajima T, Sato M, Kano F, Narikawa R. The Cruciality of Single Amino Acid Replacement for the Spectral Tuning of Biliverdin-Binding Cyanobacteriochromes. International Journal of Molecular Sciences. 21. PMID 32872628 DOI: 10.3390/ijms21176278 |
0.435 |
|
| 2020 |
Fushimi K, Matsunaga T, Narikawa R. A photoproduct of DXCF cyanobacteriochromes without reversible Cys ligation is destabilized by rotating ring twist of the chromophore. Photochemical & Photobiological Sciences : Official Journal of the European Photochemistry Association and the European Society For Photobiology. 19: 1289-1299. PMID 32789394 DOI: 10.1039/d0pp00208a |
0.419 |
|
| 2020 |
Fushimi K, Hasegawa M, Ito T, Rockwell NC, Enomoto G, -Win NN, Lagarias JC, Ikeuchi M, Narikawa R. Evolution-inspired design of multicolored photoswitches from a single cyanobacteriochrome scaffold. Proceedings of the National Academy of Sciences of the United States of America. PMID 32571944 DOI: 10.1073/Pnas.2004273117 |
0.553 |
|
| 2020 |
Kashimoto T, Miyake K, Sato M, Maeda K, Matsumoto C, Ikeuchi M, Toyooka K, Watanabe S, Kanesaki Y, Narikawa R. Acclimation process of the chlorophyll d-bearing cyanobacterium Acaryochloris marina to an orange light environment revealed by transcriptomic analysis and electron microscopic observation. The Journal of General and Applied Microbiology. PMID 32147625 DOI: 10.2323/jgam.2019.11.008 |
0.414 |
|
| 2020 |
Miyake K, Fushimi K, Kashimoto T, Maeda K, Ni-Ni-Win, Kimura H, Sugishima M, Ikeuchi M, Narikawa R. Functional diversification of two bilin reductases for light perception and harvesting in unique cyanobacterium Acaryochloris marina MBIC 11017. The Febs Journal. PMID 31995844 DOI: 10.1111/febs.15230 |
0.458 |
|
| 2019 |
Kuwasaki Y, Miyake K, Fushimi K, Takeda Y, Ueda Y, Nakajima T, Ikeuchi M, Sato M, Narikawa R. Protein Engineering of Dual-Cys Cyanobacteriochrome AM1_1186g2 for Biliverdin Incorporation and Far-Red/Blue Reversible Photoconversion. International Journal of Molecular Sciences. 20. PMID 31208089 DOI: 10.3390/ijms20122935 |
0.449 |
|
| 2019 |
Fushimi K, Miyazaki T, Kuwasaki Y, Nakajima T, Yamamoto T, Suzuki K, Ueda Y, Miyake K, Takeda Y, Choi JH, Kawagishi H, Park EY, Ikeuchi M, Sato M, Narikawa R. Rational conversion of chromophore selectivity of cyanobacteriochromes to accept mammalian intrinsic biliverdin. Proceedings of the National Academy of Sciences of the United States of America. PMID 30948637 DOI: 10.1073/pnas.1818836116 |
0.339 |
|
| 2019 |
Fushimi K, Narikawa R. Cyanobacteriochromes: photoreceptors covering the entire UV-to-visible spectrum. Current Opinion in Structural Biology. 57: 39-46. PMID 30831380 DOI: 10.1016/j.sbi.2019.01.018 |
0.431 |
|
| 2018 |
Hasegawa M, Fushimi K, Miyake K, Nakajima T, Oikawa Y, Enomoto G, Sato M, Ikeuchi M, Narikawa R. Molecular characterization of DCF cyanobacteriochromes from the cyanobacterium identifies a blue-light power sensor. The Journal of Biological Chemistry. 293: 1713-1727. PMID 29229775 DOI: 10.1074/jbc.M117.816553 |
0.531 |
|
| 2017 |
Fushimi K, Enomoto G, Ikeuchi M, Narikawa R. Distinctive Properties of Dark Reversion Kinetics between Two Red/Green-Type Cyanobacteriochromes and their Application in the Photoregulation of cAMP Synthesis. Photochemistry and Photobiology. 93: 681-691. PMID 28500699 DOI: 10.1111/php.12732 |
0.407 |
|
| 2016 |
Fushimi K, Rockwell NC, Enomoto G, Ni-Ni-Win, Martin SS, Gan F, Bryant DA, Ikeuchi M, Lagarias JC, Narikawa R. Cyanobacteriochrome Photoreceptors Lacking the Canonical Cys Residue. Biochemistry. PMID 27935696 DOI: 10.1021/Acs.Biochem.6B00940 |
0.56 |
|
| 2015 |
Song C, Velazquez Escobar F, Xu XL, Narikawa R, Ikeuchi M, Siebert F, Gärtner W, Matysik J, Hildebrandt P. A Red/Green Cyanobacteriochrome Sustains Its Color Despite a Change in the Bilin Chromophore's Protonation State. Biochemistry. PMID 26335286 DOI: 10.1021/Acs.Biochem.5B00735 |
0.318 |
|
| 2015 |
Song C, Narikawa R, Ikeuchi M, Gärtner W, Matysik J. Color Tuning in Red/Green Cyanobacteriochrome AnPixJ: Photoisomerization at C15 Causes an Excited-State Destabilization. The Journal of Physical Chemistry. B. PMID 26115331 DOI: 10.1021/Acs.Jpcb.5B04655 |
0.426 |
|
| 2015 |
Enomoto G, Ni-Ni-Win, Narikawa R, Ikeuchi M. Three cyanobacteriochromes work together to form a light color-sensitive input system for c-di-GMP signaling of cell aggregation. Proceedings of the National Academy of Sciences of the United States of America. 112: 8082-7. PMID 26080423 DOI: 10.1073/pnas.1504228112 |
0.414 |
|
| 2015 |
Narikawa R, Fushimi K, Ni-Ni-Win, Ikeuchi M. Red-shifted red/green-type cyanobacteriochrome AM1_1870g3 from the chlorophyll d-bearing cyanobacterium Acaryochloris marina. Biochemical and Biophysical Research Communications. 461: 390-5. PMID 25892514 DOI: 10.1016/j.bbrc.2015.04.045 |
0.441 |
|
| 2015 |
Narikawa R, Nakajima T, Aono Y, Fushimi K, Enomoto G, Ni-Ni-Win, Itoh S, Sato M, Ikeuchi M. A biliverdin-binding cyanobacteriochrome from the chlorophyll d-bearing cyanobacterium Acaryochloris marina. Scientific Reports. 5: 7950. PMID 25609645 DOI: 10.1038/srep07950 |
0.431 |
|
| 2014 |
Enomoto G, Nomura R, Shimada T, Ni-Ni-Win, Narikawa R, Ikeuchi M. Cyanobacteriochrome SesA is a diguanylate cyclase that induces cell aggregation in Thermosynechococcus. The Journal of Biological Chemistry. 289: 24801-9. PMID 25059661 DOI: 10.1074/jbc.M114.583674 |
0.421 |
|
| 2014 |
Narikawa R, Enomoto G, Ni-Ni-Win, Fushimi K, Ikeuchi M. A new type of dual-Cys cyanobacteriochrome GAF domain found in cyanobacterium Acaryochloris marina, which has an unusual red/blue reversible photoconversion cycle. Biochemistry. 53: 5051-9. PMID 25029277 DOI: 10.1021/bi500376b |
0.55 |
|
| 2013 |
Velazquez Escobar F, Utesch T, Narikawa R, Ikeuchi M, Mroginski MA, Gärtner W, Hildebrandt P. Photoconversion mechanism of the second GAF domain of cyanobacteriochrome AnPixJ and the cofactor structure of its green-absorbing state. Biochemistry. 52: 4871-80. PMID 23808413 DOI: 10.1021/Bi400506A |
0.408 |
|
| 2013 |
Nagao R, Tomo T, Narikawa R, Enami I, Ikeuchi M. Light-independent biosynthesis and assembly of the photosystem II complex in the diatom Chaetoceros gracilis. Febs Letters. 587: 1340-5. PMID 23499432 DOI: 10.1016/j.febslet.2013.02.050 |
0.341 |
|
| 2013 |
Hirose Y, Rockwell NC, Nishiyama K, Narikawa R, Ukaji Y, Inomata K, Lagarias JC, Ikeuchi M. Green/red cyanobacteriochromes regulate complementary chromatic acclimation via a protochromic photocycle Proceedings of the National Academy of Sciences of the United States of America. 110: 4974-4979. PMID 23479641 DOI: 10.1073/Pnas.1302909110 |
0.555 |
|
| 2013 |
Narikawa R, Ishizuka T, Muraki N, Shiba T, Kurisu G, Ikeuchi M. Structures of cyanobacteriochromes from phototaxis regulators AnPixJ and TePixJ reveal general and specific photoconversion mechanism Proceedings of the National Academy of Sciences of the United States of America. 110: 918-923. PMID 23256156 DOI: 10.1073/pnas.1212098110 |
0.31 |
|
| 2013 |
Narikawa R. 1SAP-07 Color tuning mechanism of novel photoreceptors cyanobacteriochrome(1SAP Colorful plant light-perceptive proteins,Symposium,The 51th Annual Meeting of the Biophysical Society of Japan) Seibutsu Butsuri. 53: S87. DOI: 10.2142/BIOPHYS.53.S87_1 |
0.343 |
|
| 2012 |
Enomoto G, Hirose Y, Narikawa R, Ikeuchi M. Thiol-based photocycle of the blue and teal light-sensing cyanobacteriochrome Tlr1999. Biochemistry. 51: 3050-8. PMID 22439675 DOI: 10.1021/bi300020u |
0.323 |
|
| 2011 |
Narikawa R, Suzuki F, Yoshihara S, Higashi S, Watanabe M, Ikeuchi M. Novel photosensory two-component system (PixA-NixB-NixC) involved in the regulation of positive and negative phototaxis of cyanobacterium Synechocystis sp. PCC 6803. Plant & Cell Physiology. 52: 2214-24. PMID 22065076 DOI: 10.1093/pcp/pcr155 |
0.341 |
|
| 2011 |
Fukushima Y, Iwaki M, Narikawa R, Ikeuchi M, Tomita Y, Itoh S. Photoconversion mechanism of a green/red photosensory cyanobacteriochrome AnPixJ: time-resolved optical spectroscopy and FTIR analysis of the AnPixJ-GAF2 domain. Biochemistry. 50: 6328-39. PMID 21714499 DOI: 10.1021/bi101799w |
0.411 |
|
| 2011 |
Ishizuka T, Kamiya A, Suzuki H, Narikawa R, Noguchi T, Kohchi T, Inomata K, Ikeuchi M. The cyanobacteriochrome, TePixJ, isomerizes its own chromophore by converting phycocyanobilin to phycoviolobilin. Biochemistry. 50: 953-61. PMID 21197959 DOI: 10.1021/bi101626t |
0.462 |
|
| 2010 |
Hirose Y, Narikawa R, Katayama M, Ikeuchi M. Cyanobacteriochrome CcaS regulates phycoerythrin accumulation in Nostoc punctiforme, a group II chromatic adapter. Proceedings of the National Academy of Sciences of the United States of America. 107: 8854-9. PMID 20404166 DOI: 10.1073/pnas.1000177107 |
0.425 |
|
| 2010 |
Tomita Y, Suzuki H, Narikawa R, Ikeuchi M, Itoh S, Noguchi T. 3P269 FTIR analysis of the photoreactions of red/green light sensor protein AnPixJ(Photobiology: Vision & Photoreception,The 48th Annual Meeting of the Biophysical Society of Japan) Seibutsu Butsuri. 50: S192-S193. DOI: 10.2142/biophys.50.S192_5 |
0.384 |
|
| 2009 |
Narikawa R, Muraki N, Shiba T, Ikeuchi M, Kurisu G. Crystallization and preliminary X-ray studies of the chromophore-binding domain of cyanobacteriochrome AnPixJ from Anabaena sp. PCC 7120 Acta Crystallographica Section F: Structural Biology and Crystallization Communications. 65: 159-162. PMID 19194010 DOI: 10.1107/S1744309108044151 |
0.303 |
|
| 2008 |
Narikawa R, Kohchi T, Ikeuchi M. Characterization of the photoactive GAF domain of the CikA homolog (SyCikA, Slr1969) of the cyanobacterium Synechocystis sp. PCC 6803. Photochemical & Photobiological Sciences : Official Journal of the European Photochemistry Association and the European Society For Photobiology. 7: 1253-9. PMID 18846291 DOI: 10.1039/b811214b |
0.532 |
|
| 2008 |
Hirose Y, Shimada T, Narikawa R, Katayama M, Ikeuchi M. Cyanobacteriochrome CcaS is the green light receptor that induces the expression of phycobilisome linker protein. Proceedings of the National Academy of Sciences of the United States of America. 105: 9528-33. PMID 18621684 DOI: 10.1073/pnas.0801826105 |
0.455 |
|
| 2008 |
Narikawa R, Fukushima Y, Ishizuka T, Itoh S, Ikeuchi M. A novel photoactive GAF domain of cyanobacteriochrome AnPixJ that shows reversible green/red photoconversion. Journal of Molecular Biology. 380: 844-55. PMID 18571200 DOI: 10.1016/j.jmb.2008.05.035 |
0.478 |
|
| 2007 |
Ishizuka T, Narikawa R, Kohchi T, Katayama M, Ikeuchi M. Cyanobacteriochrome TePixJ of Thermosynechococcus elongatus harbors phycoviolobilin as a chromophore. Plant & Cell Physiology. 48: 1385-90. PMID 17715149 DOI: 10.1093/pcp/pcm106 |
0.48 |
|
| 2006 |
Narikawa R, Zikihara K, Okajima K, Ochiai Y, Katayama M, Shichida Y, Tokutomi S, Ikeuchi M. Three putative photosensory light, oxygen or voltage (LOV) domains with distinct biochemical properties from the filamentous cyanobacterium Anabaena sp. PCC 7120. Photochemistry and Photobiology. 82: 1627-33. PMID 16922605 DOI: 10.1562/2006-05-02-RA-888 |
0.386 |
|
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