Shiro Nakagawa

1.6k total citations
77 papers, 1.3k citations indexed

About

Shiro Nakagawa is a scholar working on Molecular Biology, Cellular and Molecular Neuroscience and Physiology. According to data from OpenAlex, Shiro Nakagawa has authored 77 papers receiving a total of 1.3k indexed citations (citations by other indexed papers that have themselves been cited), including 27 papers in Molecular Biology, 25 papers in Cellular and Molecular Neuroscience and 17 papers in Physiology. Recurrent topics in Shiro Nakagawa's work include Neuroscience and Neuropharmacology Research (19 papers), Metabolism and Genetic Disorders (10 papers) and Nitric Oxide and Endothelin Effects (8 papers). Shiro Nakagawa is often cited by papers focused on Neuroscience and Neuropharmacology Research (19 papers), Metabolism and Genetic Disorders (10 papers) and Nitric Oxide and Endothelin Effects (8 papers). Shiro Nakagawa collaborates with scholars based in Japan, Australia and Spain. Shiro Nakagawa's co-authors include Takeyori Saheki, Satoshi Kuchiiwa, Hiroyuki Nakamura, Yasuo Hasegawa, Hitoshi Ichiki, Hiroyuki Nakamura, Shi‐Bin Cheng, Katsuma Nakano, Noboru Mizuno and Keiko Kobayashi and has published in prestigious journals such as Journal of Biological Chemistry, Hepatology and The Journal of Comparative Neurology.

In The Last Decade

Shiro Nakagawa

76 papers receiving 1.2k citations

Peers — A (Enhanced Table)

Peers by citation overlap · career bar shows stage (early→late) cites · hero ref

Name h Career Trend Papers Cites
Shiro Nakagawa Japan 20 419 357 255 229 185 77 1.3k
Marieta Barrow Heaton United States 35 939 2.2× 795 2.2× 156 0.6× 131 0.6× 219 1.2× 106 2.9k
Ch. Pilgrim Germany 21 491 1.2× 510 1.4× 186 0.7× 135 0.6× 194 1.0× 59 1.5k
Koji Ohno Japan 23 1.1k 2.6× 791 2.2× 205 0.8× 243 1.1× 118 0.6× 58 1.8k
Motoko Maekawa Japan 26 541 1.3× 1.3k 3.5× 307 1.2× 195 0.9× 68 0.4× 60 2.2k
K. Fleischhauer Germany 20 622 1.5× 301 0.8× 153 0.6× 290 1.3× 137 0.7× 57 1.5k
Linda Hassinger United States 14 359 0.9× 439 1.2× 188 0.7× 193 0.8× 152 0.8× 16 1.4k
Jan Cammermeyer United States 22 550 1.3× 412 1.2× 177 0.7× 79 0.3× 104 0.6× 63 1.6k
Ángela M. Suburo Argentina 22 346 0.8× 572 1.6× 492 1.9× 50 0.2× 162 0.9× 76 1.7k
Barbara J. McLaughlin United States 26 1.3k 3.2× 1.3k 3.7× 493 1.9× 118 0.5× 141 0.8× 72 2.6k
Hongyu Zhang China 22 358 0.9× 624 1.7× 112 0.4× 356 1.6× 93 0.5× 43 1.7k

Countries citing papers authored by Shiro Nakagawa

Since Specialization
Citations

This map shows the geographic impact of Shiro Nakagawa's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Shiro Nakagawa with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Shiro Nakagawa more than expected).

Fields of papers citing papers by Shiro Nakagawa

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Shiro Nakagawa. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Shiro Nakagawa. The network helps show where Shiro Nakagawa may publish in the future.

Co-authorship network of co-authors of Shiro Nakagawa

This figure shows the co-authorship network connecting the top 25 collaborators of Shiro Nakagawa. A scholar is included among the top collaborators of Shiro Nakagawa based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Shiro Nakagawa. Shiro Nakagawa is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

20 of 20 papers shown
1.
Ago, Kazutoshi, Mihoko Ago, Shiro Nakagawa, & Mamoru Ogata. (2009). Do A-stretches inhibit the emergence of new variants in STR loci?. Legal Medicine. 11. S446–S448. 1 indexed citations
2.
Cheng, Shi‐Bin, et al.. (2003). Dioxin exposure down-regulates nitric oxide synthase and NADPH-diaphorase activities in the hypothalamus of Long-Evans rat. Neuroscience Letters. 345(1). 5–8. 6 indexed citations
3.
Kozako, Tomohiro, Asuka Kawachi, Shi‐Bin Cheng, et al.. (2002). Role of the vestibular nuclei in endothelin-1-induced barrel rotation in rats. European Journal of Pharmacology. 454(2-3). 199–207. 6 indexed citations
4.
Cheng, Shi‐Bin, et al.. (2002). 2,3,7,8-Tetrachlorodibenzo-p-dioxin treatment induces c-Fos expression in the forebrain of the Long-Evans rat. Brain Research. 931(2). 176–180. 18 indexed citations
5.
6.
Nomoto, Masahiro, et al.. (2000). The study on the metabolic reate and vulnerability of dopaminergic neurons, and dynamics of adenosine at the cerebral cortex, the nucleus accumbens, the caudate nucleus and the putamen. Journal of Neurology. 247. 16–22. 5 indexed citations
7.
Nagatomo, Itsugi, et al.. (2000). Age-related alterations of nitric oxide production in the brains of seizure-susceptible EL mice. Brain Research Bulletin. 53(3). 301–306. 1 indexed citations
8.
Uchida, Masahiro, et al.. (1999). Nitric oxide production is decreased in the brain of the seizure susceptible EL mouse. Brain Research Bulletin. 50(4). 223–227. 12 indexed citations
9.
Nagatomo, Itsugi, et al.. (1999). Kainic and domoic acids differentially affect NADPH-diaphorase neurons in the mouse hippocampal formation. Brain Research Bulletin. 48(3). 277–282. 6 indexed citations
10.
11.
Nakano, Kyoko, et al.. (1997). Different distribution of dihydrolipoamide succinyltransferase, dihydrolipoamide acetyltransferase and ATP synthase beta-subunit in monkey brain.. PubMed. 10(5). 495–501. 1 indexed citations
12.
Kawamoto, Shunji, Russell W. Strong, Paul Kerlin, et al.. (1997). Orthotopic liver transplantation for adult‐onset Type II citrullinaemia. Clinical Transplantation. 11(5pt1). 453–458. 22 indexed citations
13.
Nakata, Masanori, Toshihiko Yada, Shiro Nakagawa, Keiko Kobayashi, & Ikuro Maruyama. (1997). Citrulline-Argininosuccinate-Arginine Cycle Coupled to Ca2+-Signaling in Rat Pancreatic β-Cells. Biochemical and Biophysical Research Communications. 235(3). 619–624. 19 indexed citations
14.
Matuda, Sadayuki, et al.. (1997). A Polypeptide Derived from Mitochondrial Dihydrolipoamide Succinyltransferase Is Located on the Plasma Membrane in Skeletal Muscle. Biochemical and Biophysical Research Communications. 241(1). 151–156. 9 indexed citations
15.
Nagatomo, Itsugi, et al.. (1996). Sparse distribution of NADPH diaphorase neurons in the hippocampal formation of the inbred mutant strain EL mouse. Brain Research. 730(1-2). 223–226. 13 indexed citations
16.
Kuchiiwa, Satoshi, Hiroshi Izumi, Keishiro Karita, & Shiro Nakagawa. (1992). Origins of parasympathetic postganglionic vasodilator fibers supplying the lips and gingivae; an WGA-HRP study in the cat. Neuroscience Letters. 142(2). 237–240. 27 indexed citations
17.
Nakagawa, Shiro, et al.. (1988). Retinal projection to the formatio reticularis tegmenti mesencephali in the Old World monkeys. Experimental Brain Research. 69(2). 373–7. 7 indexed citations
18.
Nakagawa, Shiro & Seiji Tanaka. (1984). Retinal projections to the pulvinar nucleus of the macaque monkey: a re-investigation using autoradiography. Experimental Brain Research. 57(1). 151–7. 29 indexed citations
19.
20.
Takashio, M., et al.. (1962). TOXASCARIS TRANSFUGA(RUDOLPHI, 1819)BAYLIS ET DAUBNEY 1922, FOUND IN CAPTIVE BEARS IN JAPAN. The Japanese Journal of Veterinary Science. 24(3). 151–155_2. 6 indexed citations

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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