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Items: 1 to 50 of 51

1.

Colletotrichum shisoi sp. nov., an anthracnose pathogen of Perilla frutescens in Japan: molecular phylogenetic, morphological and genomic evidence.

Gan P, Tsushima A, Hiroyama R, Narusaka M, Takano Y, Narusaka Y, Kawaradani M, Damm U, Shirasu K.

Sci Rep. 2019 Sep 16;9(1):13349. doi: 10.1038/s41598-019-50076-5.

2.

PUB4, a CERK1-Interacting Ubiquitin Ligase, Positively Regulates MAMP-Triggered Immunity in Arabidopsis.

Desaki Y, Takahashi S, Sato K, Maeda K, Matsui S, Yoshimi I, Miura T, Jumonji JI, Takeda J, Yashima K, Kohari M, Suenaga T, Terada H, Narisawa T, Shimizu T, Yumoto E, Miyamoto K, Narusaka M, Narusaka Y, Kaku H, Shibuya N.

Plant Cell Physiol. 2019 Nov 1;60(11):2573-2583. doi: 10.1093/pcp/pcz151.

PMID:
31368495
3.

Genomic Plasticity Mediated by Transposable Elements in the Plant Pathogenic Fungus Colletotrichum higginsianum.

Tsushima A, Gan P, Kumakura N, Narusaka M, Takano Y, Narusaka Y, Shirasu K.

Genome Biol Evol. 2019 May 1;11(5):1487-1500. doi: 10.1093/gbe/evz087.

4.

Genome Sequence Resources for Four Phytopathogenic Fungi from the Colletotrichum orbiculare Species Complex.

Gan P, Tsushima A, Narusaka M, Narusaka Y, Takano Y, Kubo Y, Shirasu K.

Mol Plant Microbe Interact. 2019 Sep;32(9):1088-1090. doi: 10.1094/MPMI-12-18-0352-A. Epub 2019 Jul 11.

PMID:
30893003
5.

Efficient identification of NLR by using a genome-wide protein domain and motif survey program, Ex-DOMAIN.

Narusaka M, Yunokawa H, Narusaka Y.

Plant Biotechnol (Tokyo). 2018 Jun 25;35(2):177-180. doi: 10.5511/plantbiotechnology.18.0418a.

6.

Inappropriate Expression of an NLP Effector in Colletotrichum orbiculare Impairs Infection on Cucurbitaceae Cultivars via Plant Recognition of the C-Terminal Region.

Azmi NSA, Singkaravanit-Ogawa S, Ikeda K, Kitakura S, Inoue Y, Narusaka Y, Shirasu K, Kaido M, Mise K, Takano Y.

Mol Plant Microbe Interact. 2018 Jan;31(1):101-111. doi: 10.1094/MPMI-04-17-0085-FI. Epub 2017 Oct 23.

PMID:
29059009
7.

Draft Genome Assembly of Colletotrichum chlorophyti, a Pathogen of Herbaceous Plants.

Gan P, Narusaka M, Tsushima A, Narusaka Y, Takano Y, Shirasu K.

Genome Announc. 2017 Mar 9;5(10). pii: e01733-16. doi: 10.1128/genomeA.01733-16.

9.

Analyses of natural variation indicates that the absence of RPS4/RRS1 and amino acid change in RPS4 cause loss of their functions and resistance to pathogens.

Narusaka M, Iuchi S, Narusaka Y.

Plant Signal Behav. 2017 Mar 4;12(3):e1293218. doi: 10.1080/15592324.2017.1293218.

10.

The Arabidopsis CERK1-associated kinase PBL27 connects chitin perception to MAPK activation.

Yamada K, Yamaguchi K, Shirakawa T, Nakagami H, Mine A, Ishikawa K, Fujiwara M, Narusaka M, Narusaka Y, Ichimura K, Kobayashi Y, Matsui H, Nomura Y, Nomoto M, Tada Y, Fukao Y, Fukamizo T, Tsuda K, Shirasu K, Shibuya N, Kawasaki T.

EMBO J. 2016 Nov 15;35(22):2468-2483. Epub 2016 Sep 27.

11.

Genus-Wide Comparative Genome Analyses of Colletotrichum Species Reveal Specific Gene Family Losses and Gains during Adaptation to Specific Infection Lifestyles.

Gan P, Narusaka M, Kumakura N, Tsushima A, Takano Y, Narusaka Y, Shirasu K.

Genome Biol Evol. 2016 May 22;8(5):1467-81. doi: 10.1093/gbe/evw089.

12.

Leucine zipper motif in RRS1 is crucial for the regulation of Arabidopsis dual resistance protein complex RPS4/RRS1.

Narusaka M, Toyoda K, Shiraishi T, Iuchi S, Takano Y, Shirasu K, Narusaka Y.

Sci Rep. 2016 Jan 11;6:18702. doi: 10.1038/srep18702.

13.

Molecular Characterization of LjABCG1, an ATP-Binding Cassette Protein in Lotus japonicus.

Sugiyama A, Fukuda S, Takanashi K, Yoshioka M, Yoshioka H, Narusaka Y, Narusaka M, Kojima M, Sakakibara H, Shitan N, Sato S, Tabata S, Kawaguchi M, Yazaki K.

PLoS One. 2015 Sep 29;10(9):e0139127. doi: 10.1371/journal.pone.0139127. eCollection 2015.

14.

A novel pyrimidin-like plant activator stimulates plant disease resistance and promotes growth.

Sun TJ, Lu Y, Narusaka M, Shi C, Yang YB, Wu JX, Zeng HY, Narusaka Y, Yao N.

PLoS One. 2015 Apr 7;10(4):e0123227. doi: 10.1371/journal.pone.0123227. eCollection 2015.

15.

Arabidopsis dual resistance proteins, both RPS4 and RRS1, are required for resistance to bacterial wilt in transgenic Brassica crops.

Narusaka M, Hatakeyama K, Shirasu K, Narusaka Y.

Plant Signal Behav. 2014;9(7):e29130. doi: 10.4161/psb.29130.

16.

Yeast cell wall extract induces disease resistance against bacterial and fungal pathogens in Arabidopsis thaliana and Brassica crop.

Narusaka M, Minami T, Iwabuchi C, Hamasaki T, Takasaki S, Kawamura K, Narusaka Y.

PLoS One. 2015 Jan 7;10(1):e0115864. doi: 10.1371/journal.pone.0115864. eCollection 2015.

17.

Arabidopsis dual resistance proteins, both RPS4 and RRS1, are required for resistance to bacterial wilt in transgenic Brassica crops.

Narusaka M, Hatakeyama K, Shirasu K, Narusaka Y.

Plant Signal Behav. 2014 May 15;9. pii: e29130. [Epub ahead of print]

PMID:
24832367
18.

Selective regulation of the chitin-induced defense response by the Arabidopsis receptor-like cytoplasmic kinase PBL27.

Shinya T, Yamaguchi K, Desaki Y, Yamada K, Narisawa T, Kobayashi Y, Maeda K, Suzuki M, Tanimoto T, Takeda J, Nakashima M, Funama R, Narusaka M, Narusaka Y, Kaku H, Kawasaki T, Shibuya N.

Plant J. 2014 Jul;79(1):56-66. doi: 10.1111/tpj.12535. Epub 2014 May 23.

19.

A poly(A)-specific ribonuclease directly regulates the poly(A) status of mitochondrial mRNA in Arabidopsis.

Hirayama T, Matsuura T, Ushiyama S, Narusaka M, Kurihara Y, Yasuda M, Ohtani M, Seki M, Demura T, Nakashita H, Narusaka Y, Hayashi S.

Nat Commun. 2013;4:2247. doi: 10.1038/ncomms3247.

PMID:
23912222
20.

Presence of LYM2 dependent but CERK1 independent disease resistance in Arabidopsis.

Narusaka Y, Shinya T, Narusaka M, Motoyama N, Shimada H, Murakami K, Shibuya N.

Plant Signal Behav. 2013 Sep;8(9). pii: e25345. doi: 10.4161/psb.25345. Epub 2013 Aug 2.

21.

Glutathione and tryptophan metabolism are required for Arabidopsis immunity during the hypersensitive response to hemibiotrophs.

Hiruma K, Fukunaga S, Bednarek P, Pislewska-Bednarek M, Watanabe S, Narusaka Y, Shirasu K, Takano Y.

Proc Natl Acad Sci U S A. 2013 Jun 4;110(23):9589-94. doi: 10.1073/pnas.1305745110. Epub 2013 May 21.

22.

Breaking restricted taxonomic functionality by dual resistance genes.

Narusaka M, Kubo Y, Hatakeyama K, Imamura J, Ezura H, Nanasato Y, Tabei Y, Takano Y, Shirasu K, Narusaka Y.

Plant Signal Behav. 2013 Jun;8(6):e24244. doi: 10.4161/psb.24244. Epub 2013 Mar 21.

23.

Interfamily transfer of dual NB-LRR genes confers resistance to multiple pathogens.

Narusaka M, Kubo Y, Hatakeyama K, Imamura J, Ezura H, Nanasato Y, Tabei Y, Takano Y, Shirasu K, Narusaka Y.

PLoS One. 2013;8(2):e55954. doi: 10.1371/journal.pone.0055954. Epub 2013 Feb 20.

24.

Comparative genomic and transcriptomic analyses reveal the hemibiotrophic stage shift of Colletotrichum fungi.

Gan P, Ikeda K, Irieda H, Narusaka M, O'Connell RJ, Narusaka Y, Takano Y, Kubo Y, Shirasu K.

New Phytol. 2013 Mar;197(4):1236-49. doi: 10.1111/nph.12085. Epub 2012 Dec 17.

25.

The genome of the mesopolyploid crop species Brassica rapa.

Wang X, Wang H, Wang J, Sun R, Wu J, Liu S, Bai Y, Mun JH, Bancroft I, Cheng F, Huang S, Li X, Hua W, Wang J, Wang X, Freeling M, Pires JC, Paterson AH, Chalhoub B, Wang B, Hayward A, Sharpe AG, Park BS, Weisshaar B, Liu B, Li B, Liu B, Tong C, Song C, Duran C, Peng C, Geng C, Koh C, Lin C, Edwards D, Mu D, Shen D, Soumpourou E, Li F, Fraser F, Conant G, Lassalle G, King GJ, Bonnema G, Tang H, Wang H, Belcram H, Zhou H, Hirakawa H, Abe H, Guo H, Wang H, Jin H, Parkin IA, Batley J, Kim JS, Just J, Li J, Xu J, Deng J, Kim JA, Li J, Yu J, Meng J, Wang J, Min J, Poulain J, Wang J, Hatakeyama K, Wu K, Wang L, Fang L, Trick M, Links MG, Zhao M, Jin M, Ramchiary N, Drou N, Berkman PJ, Cai Q, Huang Q, Li R, Tabata S, Cheng S, Zhang S, Zhang S, Huang S, Sato S, Sun S, Kwon SJ, Choi SR, Lee TH, Fan W, Zhao X, Tan X, Xu X, Wang Y, Qiu Y, Yin Y, Li Y, Du Y, Liao Y, Lim Y, Narusaka Y, Wang Y, Wang Z, Li Z, Wang Z, Xiong Z, Zhang Z; Brassica rapa Genome Sequencing Project Consortium.

Nat Genet. 2011 Aug 28;43(10):1035-9. doi: 10.1038/ng.919.

PMID:
21873998
26.

Development of full-length cDNAs from Chinese cabbage (Brassica rapa Subsp. pekinensis) and identification of marker genes for defence response.

Abe H, Narusaka Y, Sasaki I, Hatakeyama K, Shin-I S, Narusaka M, Fukami-Kobayashi K, Matsumoto S, Kobayashi M.

DNA Res. 2011 Aug;18(4):277-89. doi: 10.1093/dnares/dsr018. Epub 2011 Jul 10.

27.

Mapping of quantitative trait loci for high level of self-incompatibility in Brassica rapa L.

Hatakeyama K, Horisaki A, Niikura S, Narusaka Y, Abe H, Yoshiaki H, Ishida M, Fukuoka H, Matsumoto S.

Genome. 2010 Apr;53(4):257-65. doi: 10.1139/g10-001.

PMID:
20616857
28.

ABA hypersensitive germination2-1 causes the activation of both abscisic acid and salicylic acid responses in Arabidopsis.

Nishimura N, Okamoto M, Narusaka M, Yasuda M, Nakashita H, Shinozaki K, Narusaka Y, Hirayama T.

Plant Cell Physiol. 2009 Dec;50(12):2112-22. doi: 10.1093/pcp/pcp146.

PMID:
19892832
29.

The phytochrome-interacting factor PIF7 negatively regulates DREB1 expression under circadian control in Arabidopsis.

Kidokoro S, Maruyama K, Nakashima K, Imura Y, Narusaka Y, Shinwari ZK, Osakabe Y, Fujita Y, Mizoi J, Shinozaki K, Yamaguchi-Shinozaki K.

Plant Physiol. 2009 Dec;151(4):2046-57. doi: 10.1104/pp.109.147033. Epub 2009 Oct 16.

30.

A dual resistance gene system prevents infection by three distinct pathogens.

Narusaka M, Kubo Y, Shiraishi T, Iwabuchi M, Narusaka Y.

Plant Signal Behav. 2009 Oct;4(10):954-5. Epub 2009 Oct 17.

31.

Arabidopsis-thrips system for analysis of plant response to insect feeding.

Abe H, Onnishi J, Narusaka M, Seo S, Narusaka Y, Tsuda S, Kobayashi M.

Plant Signal Behav. 2008 Jul;3(7):446-7.

32.

A locus conferring resistance to Colletotrichum higginsianum is shared by four geographically distinct Arabidopsis accessions.

Birker D, Heidrich K, Takahara H, Narusaka M, Deslandes L, Narusaka Y, Reymond M, Parker JE, O'Connell R.

Plant J. 2009 Nov;60(4):602-13. doi: 10.1111/j.1365-313X.2009.03984.x. Epub 2009 Jul 22.

33.

Jasmonate-dependent plant defense restricts thrips performance and preference.

Abe H, Shimoda T, Ohnishi J, Kugimiya S, Narusaka M, Seo S, Narusaka Y, Tsuda S, Kobayashi M.

BMC Plant Biol. 2009 Jul 27;9:97. doi: 10.1186/1471-2229-9-97.

34.

RRS1 and RPS4 provide a dual Resistance-gene system against fungal and bacterial pathogens.

Narusaka M, Shirasu K, Noutoshi Y, Kubo Y, Shiraishi T, Iwabuchi M, Narusaka Y.

Plant J. 2009 Oct;60(2):218-26. doi: 10.1111/j.1365-313X.2009.03949.x. Epub 2009 Jun 9.

35.

Function of jasmonate in response and tolerance of Arabidopsis to thrip feeding.

Abe H, Ohnishi J, Narusaka M, Seo S, Narusaka Y, Tsuda S, Kobayashi M.

Plant Cell Physiol. 2008 Jan;49(1):68-80. Epub 2007 Nov 28.

PMID:
18045812
36.

CERK1, a LysM receptor kinase, is essential for chitin elicitor signaling in Arabidopsis.

Miya A, Albert P, Shinya T, Desaki Y, Ichimura K, Shirasu K, Narusaka Y, Kawakami N, Kaku H, Shibuya N.

Proc Natl Acad Sci U S A. 2007 Dec 4;104(49):19613-8. Epub 2007 Nov 27.

37.

Crosstalk between abiotic and biotic stress responses: a current view from the points of convergence in the stress signaling networks.

Fujita M, Fujita Y, Noutoshi Y, Takahashi F, Narusaka Y, Yamaguchi-Shinozaki K, Shinozaki K.

Curr Opin Plant Biol. 2006 Aug;9(4):436-42. Epub 2006 Jun 8. Review.

PMID:
16759898
38.

Transcriptional regulation of ABI3- and ABA-responsive genes including RD29B and RD29A in seeds, germinating embryos, and seedlings of Arabidopsis.

Nakashima K, Fujita Y, Katsura K, Maruyama K, Narusaka Y, Seki M, Shinozaki K, Yamaguchi-Shinozaki K.

Plant Mol Biol. 2006 Jan;60(1):51-68.

PMID:
16463099
39.

Analysis of ABA hypersensitive germination2 revealed the pivotal functions of PARN in stress response in Arabidopsis.

Nishimura N, Kitahata N, Seki M, Narusaka Y, Narusaka M, Kuromori T, Asami T, Shinozaki K, Hirayama T.

Plant J. 2005 Dec;44(6):972-84.

40.

Cytological and molecular analyses of non-host resistance of Arabidopsis thaliana to Alternaria alternata.

Narusaka Y, Narusaka M, Seki M, Ishida J, Shinozaki K, Nan Y, Park P, Shiraishi T, Kobayashi M.

Mol Plant Pathol. 2005 Nov 1;6(6):615-27. doi: 10.1111/j.1364-3703.2005.00310.x.

PMID:
20565684
41.

Crosstalk in the responses to abiotic and biotic stresses in Arabidopsis: analysis of gene expression in cytochrome P450 gene superfamily by cDNA microarray.

Narusaka Y, Narusaka M, Seki M, Umezawa T, Ishida J, Nakajima M, Enju A, Shinozaki K.

Plant Mol Biol. 2004 May;55(3):327-42.

PMID:
15604685
42.

Comparative genomics in salt tolerance between Arabidopsis and aRabidopsis-related halophyte salt cress using Arabidopsis microarray.

Taji T, Seki M, Satou M, Sakurai T, Kobayashi M, Ishiyama K, Narusaka Y, Narusaka M, Zhu JK, Shinozaki K.

Plant Physiol. 2004 Jul;135(3):1697-709. Epub 2004 Jul 9.

43.

RCH1, a locus in Arabidopsis that confers resistance to the hemibiotrophic fungal pathogen Colletotrichum higginsianum.

Narusaka Y, Narusaka M, Park P, Kubo Y, Hirayama T, Seki M, Shiraishi T, Ishida J, Nakashima M, Enju A, Sakurai T, Satou M, Kobayashi M, Shinozaki K.

Mol Plant Microbe Interact. 2004 Jul;17(7):749-62.

44.

Expression profiles of Arabidopsis phospholipase A IIA gene in response to biotic and abiotic stresses.

Narusaka Y, Narusaka M, Seki M, Fujita M, Ishida J, Nakashima M, Enju A, Sakurai T, Satou M, Kamiya A, Park P, Kobayashi M, Shinozaki K.

Plant Cell Physiol. 2003 Nov;44(11):1246-52.

PMID:
14634163
45.

The cDNA microarray analysis using an Arabidopsis pad3 mutant reveals the expression profiles and classification of genes induced by Alternaria brassicicola attack.

Narusaka Y, Narusaka M, Seki M, Ishida J, Nakashima M, Kamiya A, Enju A, Sakurai T, Satoh M, Kobayashi M, Tosa Y, Park P, Shinozaki K.

Plant Cell Physiol. 2003 Apr;44(4):377-87.

PMID:
12721378
46.

Interaction between two cis-acting elements, ABRE and DRE, in ABA-dependent expression of Arabidopsis rd29A gene in response to dehydration and high-salinity stresses.

Narusaka Y, Nakashima K, Shinwari ZK, Sakuma Y, Furihata T, Abe H, Narusaka M, Shinozaki K, Yamaguchi-Shinozaki K.

Plant J. 2003 Apr;34(2):137-48.

47.

Two different novel cis-acting elements of erd1, a clpA homologous Arabidopsis gene function in induction by dehydration stress and dark-induced senescence.

Simpson SD, Nakashima K, Narusaka Y, Seki M, Shinozaki K, Yamaguchi-Shinozaki K.

Plant J. 2003 Jan;33(2):259-70.

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