{"id":39,"date":"2017-05-09T15:33:47","date_gmt":"2017-05-09T06:33:47","guid":{"rendered":"http:\/\/www.med.miyazaki-u.ac.jp\/home\/kenmochi\/?page_id=39"},"modified":"2021-01-22T10:14:37","modified_gmt":"2021-01-22T01:14:37","slug":"%e6%a5%ad%e7%b8%be%e4%b8%80%e8%a6%a7","status":"publish","type":"page","link":"http:\/\/www.med.miyazaki-u.ac.jp\/home\/kenmochi\/publications","title":{"rendered":"\u696d\u7e3e\u4e00\u89a7"},"content":{"rendered":"

2020\u5e74<\/h2>

Bittel DC, Kibiryeva N, Kenmochi N, Patil P, Uechi T, Rongish B, Filla M, Marshall J, Artman M, Johnson R, O\u2019BrienJr JE.<\/span><\/a>
The role of alternative mRNA splicing in heart development.<\/span>
<\/span>In: Nakanishi T., Baldwin H., Fineman J., Yamagishi H. (eds) Molecular Mechanism of Congenital Heart Disease and Pulmonary Hypertension. Springer, pp. 339-351, <\/span><\/span>2020<\/p>

Basu A, Yoshihama M, Uechi T, Kenmochi N.<\/a>
Prokaryotic ribosomal RNA stimulates zebrafish embryonic innate immune system.
<\/span>BMC Res. Notes, 13, 6, 2020<\/p>

2019\u5e74<\/h2>

Palasin K, Uechi T, Yoshihama M, Srisowanna N, Choijookhuu N, Hishikawa Y, Kenmochi N, Chotigeat W.<\/span><\/a>
Abnormal development of zebrafish after knockout and knockdown of ribosomal protein L10a.
Sci. Rep. 9(1), 18130, 2019<\/p>

Uechi T, Kenmochi N.<\/a>
Zebrafish models of Diamond-Blackfan anemia: A tool for understanding the disease pathogenesis and drug discovery.
Pharmaceuticals, 12(4), 151, 2019<\/p>

McMahon M, Contreras A, Holm M, Uechi T, Forester CM, Pang X, Jackson C, Calvert ME, Chen B, Quigley DA, Luk JM, Kelley RK, Gordan JD, Gill RM, Blanchard SC, Ruggero D<\/a>
A single H\/ACA small nucleolar RNA mediates tumor suppression downstream of oncogenic RAS.
eLife, 8, e48847, 2019<\/p>

Matsui H, Kenmochi N, Namikawa K<\/a>
Age- and \u03b1-synuclein-dependent degeneration of dopamine and noradrenaline neurons in the annual killifish Nothobranchius furzeri.
Cell Rep. 26(7), 1727-1733, 2019<\/p>

The RNAcentral Consortium<\/a>
RNAcentral: a hub of information for non-coding RNA sequences
Nucleic Acids Res. 47(D1), D221-D229, 2019<\/p>

Kurogi K, Yoshihama M, Williams FE, Kenmochi N, Sakakibara Y, Suiko M, Liu MC<\/a>
Identification of zebrafish steroid sulfatase and comparative analysis of the enzymatic properties with human steroid sulfatase.
J. Steroid Biochem. Mol. Biol. 185, 110-117, 2019<\/p>

2018\u5e74<\/h2>

Toki T, Yoshida K, Wang R, Nakamura S, Maekawa T, Goi K, Katoh MC, Mizuno S, Sugiyama F, Kanezaki R, Uechi T, Nakajima Y, Sato Y, Okuno Y, Sato-Otsubo A, Shiozawa Y, Kataoka K, Shiraishi Y, Sanada M, Chiba K, Tanaka H, Terui K, Sato T, Kamio T, Sakaguchi H, Ohga S, Kuramitsu M, Hamaguchi I, Ohara A, Kanno H, Miyano S, Kojima S, Ishiguro A, Sugita K, Kenmochi N, Takahashi S, Eto K, Ogawa S, Ito E<\/a>
De novo mutations activating germline TP53 in a novel inherited bone marrow failure syndrome.
Am. J. Hum. Genet. 103(3), 440-447, 2018<\/p>

Chakraborty A, Uechi T, Nakajima Y, Gazda HT, O’Donohue MF, Gleizes PE, Kenmochi N<\/a>
Cross talk between TP53 and c-Myc in the pathophysiology of Diamond-Blackfan anemia: Evidence from RPL11-deficient in vivo and in vitro models.
Biochem. Biophys. Res. Commun. 495(2), 1839-1845, 2018<\/p>

2017\u5e74<\/h2>

Kurogi K, Yoshihama M, Horton A, Schiefer IT, Krasowski MD, Hagey LR, Williams FE, Sakakibara Y, Kenmochi N, Suiko M, Liu MC<\/a>
Identification and characterization of 5\u03b1-cyprinol-sulfating cytosolic sulfotransferases (Sults) in the zebrafish (Danio rerio).
J. Steroid. Biochem. Mol. Biol. 174, 120-127, 2017<\/p>

Bao HL, Ishizuka T, Sakamoto T, Fujimoto K, Uechi T, Kenmochi N, Xu Y<\/a>
Characterization of human telomere RNA G-quadruplex structures in vitro and in living cells using 19F NMR spectroscopy
Nucleic Acids Res. 45(9), 5501-5511, 2017<\/p>

Ikeda F, Yoshida K, Toki T, Uechi T, Ishida S, Nakajima Y, Sasahara Y, Okuno Y, Kanezaki R, Terui K, Kamio T, Kobayashi A, Fujita T, Sato-Otsubo A, Shiraishi Y, Tanaka H, Chiba K, Muramatsu H, Kanno H, Ohga S, Ohara A, Kojima S, Kenmochi N, Miyano S, Ogawa S, Ito E<\/a>
Exome sequencing identified RPS15A as a novel causative gene for Diamond-Blackfan anemia.
Haematologica, 102:e93-e96. 2017<\/p>

Ikeda T, Nakahara A, Nagano R, Utoyama M, Obara M, Moritake H, Uechi T, Mitsui J, Ishiura H, Yoshimura J, Doi K, Kenmochi N, Morishita S, Nishino I, Tsuji S, Nunoi H<\/a>
TBCD may be a causal gene in progressive neurodegenerative encephalopathy with atypical infantile spinal muscular atrophy.
J. Hum. Genet. 62, 473-480, 2017<\/p>

The RNAcentral Consortium<\/a>
RNAcentral: a comprehensive database of non-coding RNA sequences.
Nucleic Acids Res., 45:D128-D134. 2017<\/p>

2016\u5e74<\/h2>

\u4e0a\u5730\u73e0\u4ee3, \u5263\u6301\u76f4\u54c9<\/a>
\u7b2c2\u7ae0 \u52d5\u7269\u5b9f\u9a13\u306e\u5bfe\u8c61\uff1a\u30bc\u30d6\u30e9\u30d5\u30a3\u30c3\u30b7\u30e5, \u7b2c3\u7ae0 \u52d5\u7269\u306e\u98fc\u80b2\u7ba1\u7406\u30fb\u57fa\u672c\u7684\u624b\u6280\uff1a\u9b5a\u985e\uff08\u30bc\u30d6\u30e9\u30d5\u30a3\u30c3\u30b7\u30e5\uff09, \u7b2c4\u7ae0 \u52d5\u7269\u5b9f\u9a13\u624b\u6cd5\uff1a\u30bc\u30d6\u30e9\u30d5\u30a3\u30c3\u30b7\u30e5\u3092\u7528\u3044\u305f\u75be\u60a3\u30e2\u30c7\u30eb\u306e\u4f5c\u88fd\u30fb\u89e3\u6790
\u5927\u30fb\u4e2d\u30fb\u5c0f\u52d5\u7269\u5b9f\u9a13\u30d7\u30ed\u30c8\u30b3\u30eb. \u5bae\u5d0e\u5927\u5b66\u52d5\u7269\u5b9f\u9a13\u30d7\u30ed\u30c8\u30b3\u30fc\u30eb\u7de8\u96c6\u59d4\u54e1\u4f1a, 2016\u00a0<\/p>

\u5263\u6301\u76f4\u54c9, \u5409\u6d5c\u9ebb\u751f<\/a>
\u7b2c4\u7ae0 snoRNA
\u30ce\u30f3\u30b3\u30fc\u30c7\u30a3\u30f3\u30b0RNA\uff0dRNA\u5206\u5b50\u306e\u5168\u4f53\u50cf\u3092\u4fef\u77b0\u3059\u308b. \u5316\u5b66\u540c\u4eba, 38-49, 2016\u00a0<\/p>

2015\u5e74<\/h2>

Patil P, Kibiryeva N, Uechi T, Marshall J, Artman M, O’Brien JE, Kenmochi N and Bittel DC<\/a>
scaRNAs regulate splicing and vertebrate heart development.
Biochem. Biophys. Acta, 1852(8):1619-1629. 2015\u00a0<\/p>

Patil P, Uechi T, Kenmochi N<\/a>
Incomplete splicing of neutrophil-specific genes affects neutrophil development in a zebrafish model of poikiloderma with neutropenia
RNA Biology, 12(4):426-434. 2015\u00a0<\/p>

Wang R, Yoshida K, Toki T, Sawada T, Uechi T, Okuno Y, Sato-Otsubo A, Kudo K, Kamimaki I, Kanezaki R, Shiraishi Y, Chiba K, Tanaka H, Terui K, Sato T, Iribe Y, Ohga S, Kuramitsu M, Hamaguchi I, Ohara A, Hara J, Goi K, Matsubara K, Koike K, Ishiguro A, Okamoto Y, Watanabe K, Kanno H, Kojima S, Miyano S, Kenmochi N, Ogawa S, Ito E.<\/a>
Loss of function mutations in RPL27 and RPS27 identified by whole-exome sequencing in Diamond-Blackfan anaemia.
Br J Haematol, 168(6):854-864. 2015\u00a0<\/p>

2014\u5e74<\/h2>

Yamamoto T, Yamamori K, Kenmochi N, Aikawa M<\/a>
A detection method for snoRNA modification domain by fully indexable dictionary retrieving
Artif Life Robotics, 19:209-214. 2014\u00a0<\/p>

Yadav VG, Chakraborty A, Uechi T, Kenmochi N<\/a>
Ribosomal protein deficiency causes Tp53-independent erythropoiesis failure in zebrafish
Int J Biochem Cell Biol, 49: 1-7. 2014\u00a0<\/p>

2013\u5e74<\/h2>

\u5263\u6301\u76f4\u54c9<\/a>
\u30ea\u30dc\u30bd\u30fc\u30e0\u75c5\u30fc\u30ea\u30dc\u30bd\u30fc\u30e0\u5408\u6210\u306e\u7570\u5e38\u3068\u75be\u60a3\u30fc
\u751f\u5316\u5b66\uff1a\u30ea\u30dc\u30bd\u30fc\u30e0\u306e\u6a5f\u80fd\u8abf\u7bc0\u3068\u75be\u60a3. 85(10): 909-915. 2013\u00a0<\/p>

Yoshihama M, Nakao A, Kenmochi N<\/a>
snOPY: a small nucleolar RNA orthological gene database
BMC Research Notes, 6: 426. 2013\u00a0<\/p>

\u5c71\u68ee\u4e00\u4eba\uff0c\u859b\u6668\uff0c\u5ca9\u5207\u6df3\u4e00\uff0c\u5263\u6301\u76f4\u54c9\uff0c\u5409\u539f\u90c1\u592b
\u69cb\u9020\u30e2\u30c7\u30eb\u306b\u57fa\u3065\u304f\u5869\u57fa\u914d\u5217\u304b\u3089\u306eboxC\/D\u578bsnoRNA\u907a\u4f1d\u5b50\u691c\u51fa\u6cd5
\u60c5\u5831\u51e6\u7406\u5b66\u4f1a\u8ad6\u6587\u8a8c\uff1a\u6570\u7406\u30e2\u30c7\u30eb\u5316\u3068\u5fdc\u7528 6(1): 79-89. 2013\u00a0<\/p>

Yamamori K, Matsuo T, Iwakiri J, Kenmochi N, Yoshihara I<\/a>
A detection method for intronic snoRNA genes using extended- weight-updating SOM with appearance probability of bases
Artificial Life and Robotics, 17(3-4): 405-411. 2013\u00a0<\/p>

2012\u5e74<\/h2>

\u4e0a\u5730\u73e0\u4ee3, \u5263\u6301\u76f4\u54c9<\/a>
\u7b2c1\u7ae0\u30ea\u30dc\u30bd\u30fc\u30e0\uff1a\u30ea\u30dc\u30bd\u30fc\u30e0\u30bf\u30f3\u30d1\u30af\u8cea\u3068\u7ffb\u8a33\u5236\u5fa1
\u751f\u4f53\u306e\u79d1\u5b66\uff1a\u7d30\u80de\u306e\u5206\u5b50\u69cb\u9020\u3068\u6a5f\u80fd\uff0d\u6838\u4ee5\u5916\u306e\u7d30\u80de\u5c0f\u5668\u5b98. \u533b\u5b66\u66f8\u9662, 63(5): 362-363. 2012\u00a0<\/p>

Chakraborty A, Kenmochi N<\/a>
Ribosomes and ribosomal proteins: More than just \u2018housekeeping\u2019
In: eLS 2012, John Wiley & Sons Ltd: Chichester htt\uff50:\/\/www.els.net\/ [DOI:10.1002\/9780470015902.a0005055.pub2]\u00a0<\/p>

\u5263\u6301\u76f4\u54c9<\/a>
\u7b2c18\u7ae0\u30b2\u30ce\u30e0\uff1a\u30a4\u30f3\u30c8\u30ed\u30f3
\u9032\u5316\u5b66\u4e8b\u5178. \u5171\u7acb\u51fa\u7248, 576-579. 2012\u00a0<\/p>

Iwakiri J, Tateishi H, Chakraborty A, Patil P, Kenmochi N<\/a>
Dissecting the protein-RNA interface: the role of protein surface shapes and RNA secondary structures in protein-RNA recognition
Nucleic Acids Res, 40(8): 3299-3306. 2012\u00a0<\/p>

Higa-Nakamine S, Suzuki T, Uechi T, Chakraborty A, Nakajima Y, Nakamura M, Hirano N, Suzuki T, Kenmochi N<\/a>
Loss of ribosomal RNA modification causes developmental defects in zebrafish
Nucleic Acids Res, 40(1): 391-398. 2012\u00a0<\/p>

2011\u5e74<\/h2>

\u5263\u6301\u76f4\u54c9<\/a>
\u3010RNA\u7570\u5e38\u306b\u3088\u308b\u75be\u60a3\u3011\u30ea\u30dc\u30bd\u30fc\u30e0\u75c5\u3068p53\u7d4c\u8def
\u533b\u5b66\u306e\u3042\u3086\u307f\uff1aRNA\u533b\u5b66\u30fb\u533b\u7642-\u3042\u3089\u305f\u306a\u8a3a\u65ad\u30fb\u6cbb\u7642\u3092\u62d3\u304f. \u533b\u6b6f\u85ac\u51fa\u7248\u682a\u5f0f\u4f1a\u793e, 238(5):476-480. 2011\u00a0<\/p>

Chakraborty A, Uechi T, Kenmochi N<\/a>
Guarding the ‘translation apparatus’: defective ribosome biogenesis and the p53 signaling pathway
WIREs RNA, 2(4): 507-522. 2011\u00a0<\/p>

Torihara H, Uechi T, Chakraborty A, Shinya M, Sakai N, Kenmochi N<\/a>
Erythropoiesis failure due to RPS19 deficiency is independent of an activated p53 response in a zebrafish model of Diamond-Blackfan anaemia
Br J Haematol. 152(5): 648-654. 2011\u00a0<\/p>

Ikeda M, Andoo A, Shimono M, Takamatsu N, Taki A, Muta K, Matsushita W, Uechi T, Matsuzaki T, Kenmochi N, Takata K, Sasaki S, Ito K, Ishibashi K<\/a>
The NPC motif of aquaporin-11, unlike the NPA motif of known aquaporins, is essential for full expression of molecular function
J. Biol. Chem, 286(5): 3342-3350. 2011\u00a0<\/p>

2010\u5e74<\/h2>

\u5263\u6301\u76f4\u54c9<\/a>
\u30104\u7ae0\u3011\u771f\u6838\u751f\u7269\u306esmall RNA
\u6a5f\u80fd\u6027RNA\u306e\u5206\u5b50\u751f\u7269\u5b66 The molecular biology of non-coding RNA. \u30af\u30d0\u30d7\u30ed, 111-150. 2010\u00a0<\/p>

2009\u5e74<\/h2>

\u6bd4\u5609\u4e09\u4ee3\u7f8e, \u5263\u6301\u76f4\u54c9<\/a>
\u30bc\u30d6\u30e9\u30d5\u30a3\u30c3\u30b7\u30e5\u306b\u304a\u3051\u308bRNA\u4fee\u98fe\u306e\u6a5f\u80fd\u89e3\u6790
\u86cb\u767d\u8cea\u6838\u9178\u9175\u7d20\uff1amRNA\u30d7\u30ed\u30b0\u30e9\u30e0. 54(16): 2092-2097. 2009\u00a0<\/p>

\u4e0a\u5730\u73e0\u4ee3, \u5263\u6301\u76f4\u54c9<\/a>
\u30ea\u30dc\u30bd\u30fc\u30e0\u75c5\uff1a\u7ffb\u8a33\u88c5\u7f6e\u306e\u30b7\u30b9\u30c6\u30e0\u969c\u5bb3
\u907a\u4f1d\u5b50\u533b\u5b66MOOK\uff1a\u6700\u65b0RNA\u3068\u75be\u60a3\u7814\u7a76. 15: 79-84. 2009\u00a0<\/p>

Chakraborty A, Uechi T, Higa S, Torihara H, Kenmochi N <\/a>
Loss of Ribosomal Protein L11 Affects Zebrafish Embryonic Development through a p53-Dependent Apoptotic Response
PLoS ONE 4(1): e4152. 2009\u00a0<\/p>

2008\u5e74<\/h2>

Uechi T, Nakajima Y, Chakraborty A, Torihara H, Higa S, Kenmochi N <\/a>
Deficiency of ribosomal protein S19 during early embryogenesis leads to reduction of erythrocytes in a zebrafish model of Diamond-Blackfan anemia.
Hum Mol Genet. 17(20): 3204-3211. 2008\u00a0<\/p>

\u5263\u6301\u76f4\u54c9<\/a>
\u30a4\u30f3\u30c8\u30ed\u30f3\u5185\u5728\u578b\u6a5f\u80fd\u6027RNA\u907a\u4f1d\u5b50\u306e\u9032\u5316
\u751f\u4f53\u306e\u79d1\u5b66\uff1a\u7279\u96c6\u3000\u73fe\u4ee3\u533b\u5b66\u30fb\u751f\u7269\u5b66\u306e\u4eee\u8aac\u30fb\u5b66\u8aac. 59(5): 386-387. 2008\u00a0<\/p>

2007\u5e74<\/h2>

Marygold S, Roote J, Reuter G, Lambertsson A, Ashburner M, Millburn M, Harrison P, Yu Z, Kenmochi N, Kaufman TC, Leevers SJ, Cook KR. <\/a>
The ribosomal protein genes and Minute loci of Drosophila melanogaster.
Genome Biol. 8: R216. 2007\u00a0<\/p>

Nguyen HD, Yoshihama M, Kenmochi N.<\/a>
The evolution of spliceosomal introns in alveolates.
Mol Biol Evol. 24(5): 1093-1096. 2007\u00a0<\/p>

Nguyen HD, Yoshihara I, Yamamori K, Yasunaga M.<\/a>
Implementation of an effective hybrid GA for large-scale traveling salesman problems.
IEEE Transactions on Systems, Man, and Cybernetics, Part B: Cybernetics 37(1): 92-99. 2007\u00a0<\/p>

Yoshihama M, Nguyen HD, Kenmochi N.<\/a>
Intron dynamics in ribosomal protein genes.
PLoS ONE 2(1): e141. 2007\u00a0<\/p>

2006\u5e74<\/h2>

Uechi T, Nakajima Y, Nakao A, Torihara H, Chakraborty A, Inoue K, Kenmochi N.<\/a>
Ribosomal protein gene knockdown causes developmental defects in zebrafish.
PLoS ONE 1(1): e37. 2006\u00a0<\/p>

\u5263\u6301\u76f4\u54c9
\u30a4\u30f3\u30c8\u30ed\u30f3\u306e\u9032\u5316
\u751f\u4f53\u306e\u79d1\u5b66\uff1a\u751f\u7269\u9032\u5316\u306e\u5206\u5b50\u30de\u30c3\u30d7, 57: 347-349. 2006\u00a0<\/p>

Nguyen HD, Yoshihama M, Kenmochi N.<\/a>
Phase distribution of spliceosomal introns: implications for intron origin.
BMC Evol. Biol. 6: 69. 2006 \u3000\u00a0<\/p>

\u5263\u6301\u76f4\u54c9<\/a>
\u30b2\u30ce\u30e0\u60c5\u5831\u306b\u57fa\u3065\u304fsnoRNA\u306e\u89e3\u6790\uff1a\u30bc\u30d6\u30e9\u30d5\u30a3\u30c3\u30b7\u30e5\u3092\u7528\u3044\u305f\u30a2\u30d7\u30ed\u30fc\u30c1
\u6a5f\u80fd\u6027Non-coding RNA. 83-98. 2006\u00a0<\/p>

Yoshihama M, Nakao A, Nguyen HD, Kenmochi N.<\/a>
Analysis of ribosomal protein gene structures: implications for intron evolution.
PLoS Genet. 2(3): e25. 2006\u00a0<\/p>

Ishii K, Washio T, Uechi T, Yoshihama M, Kenmochi N, Tomita M. <\/a>
Characteristics and clustering of human ribosomal protein genes.
BMC Genomics. 7(1): 37. 2006\u00a0<\/p>

Maeda N, Toku S, Kenmochi N, Tanaka T. <\/a>
A novel nucleolar protein interacts with ribosomal protein S19.
Biochem Biophys Res Commun. 339(1): 41-46. 2006\u00a0<\/p>

2005\u5e74<\/h2>

Nguyen HD, Yoshihama M, Kenmochi N.<\/a>
New maximum likelihood estimators for eukaryotic intron evolution.
PLoS Comput Biol. 1(7): e79. 2005\u00a0<\/p>

2004\u5e74<\/h2>

Nakao A, Yoshihama M, Kenmochi N.<\/a>
RPG: the Ribosomal Protein Gene database.
Nucleic Acids Res. 32(Database issue): D168-170. 2004\u00a0<\/p>

\u5263\u6301\u76f4\u54c9
\u30ea\u30dc\u30bd\u30fc\u30e0\u3068\u75be\u60a3
\u5b9f\u9a13\u533b\u5b66 \u5897\u520a, 22: 200-205. 2004\u00a0<\/p>

2003\u5e74<\/h2>

Kenmochi N.<\/a>
Ribosomes and Ribosomal Proteins.
In:Cooper DN (ed.) Nature Encyclopedia of the Human Genome.
Nature Publishing Group, London, 5: 77-82. 2003\u00a0<\/p>

\u5263\u6301\u76f4\u54c9<\/a>
\u30ea\u30dc\u30bd\u30fc\u30e0\u75c5\uff1a\u65b0\u305f\u306a\u75be\u60a3\u3068\u3057\u3066\u306e\u53ef\u80fd\u6027\u3092\u63a2\u308b
\u86cb\u767d\u8cea\u6838\u9178\u9175\u7d20 \u5897\u520a\u53f7, 48: 508-516. 2003\u00a0<\/p>

2002\u5e74<\/h2>

Uechi T, Maeda N, Tanaka T, Kenmochi N.<\/a>
Functional second genes generated by retrotransposition of the X-linked ribosomal protein genes.
Nucleic Acids Res. 30(24): 5369-5375. 2002\u00a0<\/p>

Higa S, Maeda N, Kenmochi N, Tanaka T.<\/a>
Location of 2(‘)-O-methyl nucleotides in 26S rRNA and methylation guide snoRNAs in Caenorhabditis elegans.
Biochem Biophys Res Commun. 297(5): 1344-1349. 2002\u00a0<\/p>

Yoshihama M, Uechi T, Asakawa S, Kawasaki K, Kato S, Higa S, Maeda N, Minoshima S, Tanaka T, Shimizu N, Kenmochi N. <\/a>
The human ribosomal protein genes: sequencing and comparative analysis of 73 genes.
Genome Res. 12(3): 379-390. 2002\u00a0<\/p>

2001\u5e74<\/h2>

Kenmochi N, Suzuki T, Uechi T, Magoori M, Kuniba M, Higa S, Watanabe K, Tanaka T.<\/a>
The human mitochondrial ribosomal protein genes: mapping of 54 genes to the chromosomes and implications for human disorders.
Genomics. 77(1-2): 65-70. 2001\u00a0<\/p>

Uechi T, Tanaka T, Kenmochi N.<\/a>
A complete map of the human ribosomal protein genes: assignment of 80 genes to the cytogenetic map and implications for human disorders.
Genomics. 72(3): 223-230. 2001\u00a0<\/p>

2000\u5e74<\/h2>

Ion A, Crosby AH, Kremer H, Kenmochi N, Van Reen M, Fenske C, Van Der Burgt I, Brunner HG, Montgomery K, Kucherlapati RS, Patton MA, Page C, Mariman E, Jeffery S.<\/a>
Detailed mapping, mutation analysis, and intragenic polymorphism identification in candidate Noonan syndrome genes MYL2, DCN, EPS8, and RPL6.
J Med Genet. 37(11): 884-886. 2000\u00a0<\/p>

Kenmochi N, Yoshihama M, Higa S, Tanaka T.<\/a>
The human ribosomal protein L6 gene in a critical region for Noonan syndrome.
J Hum Genet. 45(5): 290-293. 2000\u00a0<\/p>

\u5263\u6301\u76f4\u54c9
\u30ea\u30dc\u30bd\u30fc\u30e0\u306e\u5206\u5b50\u89e3\u5256\uff1a\u8d85\u5206\u5b50\u30b7\u30b9\u30c6\u30e0\u306e\u907a\u4f1d\u5b50\u89e3\u6790
\u30d0\u30a4\u30aa\u30b5\u30a4\u30a8\u30f3\u30b9\u3068\u30a4\u30f3\u30c0\u30b9\u30c8\u30ea\u30fc. 58: 27-30. 2000\u00a0<\/p>

1999\u5e74<\/h2>

Higa S, Yoshihama M, Tanaka T, Kenmochi N.<\/a>
Gene organization and sequence of the region containing the ribosomal protein genes RPL13A and RPS11 in the human genome and conserved features in the mouse genome.
Gene. 240(2): 371-377. 1999\u00a0<\/p>

Kenmochi N.<\/a>
Ribosomal abnormalities and human diseases.
Seikagaku. 71(3): 205-210. Review. 1999\u00a0<\/p>

1998\u5e74<\/h2>

Kenmochi N, Ashworth LK, Lennon G, Higa S, Tanaka T.<\/a>
High-resolution mapping of ribosomal protein genes to human chromosome 19.
DNA Res. 5(4): 229-233. 1998\u00a0<\/p>

Kenmochi N, Kawaguchi T, Rozen S, Davis E, Goodman N, Hudson TJ, Tanaka T, Page DC.<\/a>
A map of 75 human ribosomal protein genes.
Genome Res. 8(5): 509-523. 1998\u00a0<\/p>

1996\u5e74<\/h2>

Kenmochi N, Higa S, Yoshihama M, Tanaka T.<\/a>
U14 snoRNAs are encoded in introns of human ribosomal protein S13 gene.
Biochem Biophys Res Commun. 228(2): 371-374. 1996\u00a0<\/p>","protected":false},"excerpt":{"rendered":"

2020\u5e74Bittel DC, Kibiryeva N, Kenmochi N, Patil P, Uechi T, Rongish B, Filla M, Marshall J, Artman M, Johnson R … Continue reading →<\/span><\/a><\/p>\n","protected":false},"author":88,"featured_media":0,"parent":0,"menu_order":3,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_mi_skip_tracking":false},"_links":{"self":[{"href":"http:\/\/www.med.miyazaki-u.ac.jp\/home\/kenmochi\/wp-json\/wp\/v2\/pages\/39"}],"collection":[{"href":"http:\/\/www.med.miyazaki-u.ac.jp\/home\/kenmochi\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"http:\/\/www.med.miyazaki-u.ac.jp\/home\/kenmochi\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"http:\/\/www.med.miyazaki-u.ac.jp\/home\/kenmochi\/wp-json\/wp\/v2\/users\/88"}],"replies":[{"embeddable":true,"href":"http:\/\/www.med.miyazaki-u.ac.jp\/home\/kenmochi\/wp-json\/wp\/v2\/comments?post=39"}],"version-history":[{"count":35,"href":"http:\/\/www.med.miyazaki-u.ac.jp\/home\/kenmochi\/wp-json\/wp\/v2\/pages\/39\/revisions"}],"predecessor-version":[{"id":1095,"href":"http:\/\/www.med.miyazaki-u.ac.jp\/home\/kenmochi\/wp-json\/wp\/v2\/pages\/39\/revisions\/1095"}],"wp:attachment":[{"href":"http:\/\/www.med.miyazaki-u.ac.jp\/home\/kenmochi\/wp-json\/wp\/v2\/media?parent=39"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}