Terasawa K

References (4)

Title : Complete genome sequence of Bradyrhizobium sp. S23321: insights into symbiosis evolution in soil oligotrophs - Okubo_2012_Microbes.Environ_27_306
Author(s) : Okubo T , Tsukui T , Maita H , Okamoto S , Oshima K , Fujisawa T , Saito A , Futamata H , Hattori R , Shimomura Y , Haruta S , Morimoto S , Wang Y , Sakai Y , Hattori M , Aizawa S , Nagashima KV , Masuda S , Hattori T , Yamashita A , Bao Z , Hayatsu M , Kajiya-Kanegae H , Yoshinaga I , Sakamoto K , Toyota K , Nakao M , Kohara M , Anda M , Niwa R , Jung-Hwan P , Sameshima-Saito R , Tokuda S , Yamamoto S , Yokoyama T , Akutsu T , Nakamura Y , Nakahira-Yanaka Y , Takada Hoshino Y , Hirakawa H , Mitsui H , Terasawa K , Itakura M , Sato S , Ikeda-Ohtsubo W , Sakakura N , Kaminuma E , Minamisawa K
Ref : Microbes Environ , 27 :306 , 2012
Abstract : Bradyrhizobium sp. S23321 is an oligotrophic bacterium isolated from paddy field soil. Although S23321 is phylogenetically close to Bradyrhizobium japonicum USDA110, a legume symbiont, it is unable to induce root nodules in siratro, a legume often used for testing Nod factor-dependent nodulation. The genome of S23321 is a single circular chromosome, 7,231,841 bp in length, with an average GC content of 64.3%. The genome contains 6,898 potential protein-encoding genes, one set of rRNA genes, and 45 tRNA genes. Comparison of the genome structure between S23321 and USDA110 showed strong colinearity; however, the symbiosis islands present in USDA110 were absent in S23321, whose genome lacked a chaperonin gene cluster (groELS3) for symbiosis regulation found in USDA110. A comparison of sequences around the tRNA-Val gene strongly suggested that S23321 contains an ancestral-type genome that precedes the acquisition of a symbiosis island by horizontal gene transfer. Although S23321 contains a nif (nitrogen fixation) gene cluster, the organization, homology, and phylogeny of the genes in this cluster were more similar to those of photosynthetic bradyrhizobia ORS278 and BTAi1 than to those on the symbiosis island of USDA110. In addition, we found genes encoding a complete photosynthetic system, many ABC transporters for amino acids and oligopeptides, two types (polar and lateral) of flagella, multiple respiratory chains, and a system for lignin monomer catabolism in the S23321 genome. These features suggest that S23321 is able to adapt to a wide range of environments, probably including low-nutrient conditions, with multiple survival strategies in soil and rhizosphere.
ESTHER : Okubo_2012_Microbes.Environ_27_306
PubMedSearch : Okubo_2012_Microbes.Environ_27_306
PubMedID: 22452844
Gene_locus related to this paper: 9brad-i0g2u8 , 9brad-i0gf89 , braja-pcaD , 9brad-i0fzh8 , 9brad-i0gfv2 , 9brad-i0g2y4

Title : A 100\%-complete sequence reveals unusually simple genomic features in the hot-spring red alga Cyanidioschyzon merolae - Nozaki_2007_BMC.Biol_5_28
Author(s) : Nozaki H , Takano H , Misumi O , Terasawa K , Matsuzaki M , Maruyama S , Nishida K , Yagisawa F , Yoshida Y , Fujiwara T , Takio S , Tamura K , Chung SJ , Nakamura S , Kuroiwa H , Tanaka K , Sato N , Kuroiwa T
Ref : BMC Biol , 5 :28 , 2007
Abstract : BACKGROUND: All previously reported eukaryotic nuclear genome sequences have been incomplete, especially in highly repeated units and chromosomal ends. Because repetitive DNA is important for many aspects of biology, complete chromosomal structures are fundamental for understanding eukaryotic cells. Our earlier, nearly complete genome sequence of the hot-spring red alga Cyanidioschyzon merolae revealed several unique features, including just three ribosomal DNA copies, very few introns, and a small total number of genes. However, because the exact structures of certain functionally important repeated elements remained ambiguous, that sequence was not complete. Obviously, those ambiguities needed to be resolved before the unique features of the C. merolae genome could be summarized, and the ambiguities could only be resolved by completing the sequence. Therefore, we aimed to complete all previous gaps and sequence all remaining chromosomal ends, and now report the first nuclear-genome sequence for any eukaryote that is 100% complete.
RESULTS: Our present complete sequence consists of 16546747 nucleotides covering 100% of the 20 linear chromosomes from telomere to telomere, representing the simple and unique chromosomal structures of the eukaryotic cell. We have unambiguously established that the C. merolae genome contains the smallest known histone-gene cluster, a unique telomeric repeat for all chromosomal ends, and an extremely low number of transposons. CONCLUSION: By virtue of these attributes and others that we had discovered previously, C. merolae appears to have the simplest nuclear genome of the non-symbiotic eukaryotes. These unusually simple genomic features in the 100% complete genome sequence of C. merolae are extremely useful for further studies of eukaryotic cells.
ESTHER : Nozaki_2007_BMC.Biol_5_28
PubMedSearch : Nozaki_2007_BMC.Biol_5_28
PubMedID: 17623057
Gene_locus related to this paper: cyam1-m1vi61 , cyam1-m1vhh9

Title : Genome sequence of the ultrasmall unicellular red alga Cyanidioschyzon merolae 10D - Matsuzaki_2004_Nature_428_653
Author(s) : Matsuzaki M , Misumi O , Shin IT , Maruyama S , Takahara M , Miyagishima SY , Mori T , Nishida K , Yagisawa F , Yoshida Y , Nishimura Y , Nakao S , Kobayashi T , Momoyama Y , Higashiyama T , Minoda A , Sano M , Nomoto H , Oishi K , Hayashi H , Ohta F , Nishizaka S , Haga S , Miura S , Morishita T , Kabeya Y , Terasawa K , Suzuki Y , Ishii Y , Asakawa S , Takano H , Ohta N , Kuroiwa H , Tanaka K , Shimizu N , Sugano S , Sato N , Nozaki H , Ogasawara N , Kohara Y , Kuroiwa T
Ref : Nature , 428 :653 , 2004
Abstract : Small, compact genomes of ultrasmall unicellular algae provide information on the basic and essential genes that support the lives of photosynthetic eukaryotes, including higher plants. Here we report the 16,520,305-base-pair sequence of the 20 chromosomes of the unicellular red alga Cyanidioschyzon merolae 10D as the first complete algal genome. We identified 5,331 genes in total, of which at least 86.3% were expressed. Unique characteristics of this genomic structure include: a lack of introns in all but 26 genes; only three copies of ribosomal DNA units that maintain the nucleolus; and two dynamin genes that are involved only in the division of mitochondria and plastids. The conserved mosaic origin of Calvin cycle enzymes in this red alga and in green plants supports the hypothesis of the existence of single primary plastid endosymbiosis. The lack of a myosin gene, in addition to the unexpressed actin gene, suggests a simpler system of cytokinesis. These results indicate that the C. merolae genome provides a model system with a simple gene composition for studying the origin, evolution and fundamental mechanisms of eukaryotic cells.
ESTHER : Matsuzaki_2004_Nature_428_653
PubMedSearch : Matsuzaki_2004_Nature_428_653
PubMedID: 15071595
Gene_locus related to this paper: cyam1-m1vi61 , cyam1-m1vhh9

Title : The genome sequence and structure of rice chromosome 1 - Sasaki_2002_Nature_420_312
Author(s) : Sasaki T , Matsumoto T , Yamamoto K , Sakata K , Baba T , Katayose Y , Wu J , Niimura Y , Cheng Z , Nagamura Y , Antonio BA , Kanamori H , Hosokawa S , Masukawa M , Arikawa K , Chiden Y , Hayashi M , Okamoto M , Ando T , Aoki H , Arita K , Hamada M , Harada C , Hijishita S , Honda M , Ichikawa Y , Idonuma A , Iijima M , Ikeda M , Ikeno M , Ito S , Ito T , Ito Y , Iwabuchi A , Kamiya K , Karasawa W , Katagiri S , Kikuta A , Kobayashi N , Kono I , Machita K , Maehara T , Mizuno H , Mizubayashi T , Mukai Y , Nagasaki H , Nakashima M , Nakama Y , Nakamichi Y , Nakamura M , Namiki N , Negishi M , Ohta I , Ono N , Saji S , Sakai K , Shibata M , Shimokawa T , Shomura A , Song J , Takazaki Y , Terasawa K , Tsuji K , Waki K , Yamagata H , Yamane H , Yoshiki S , Yoshihara R , Yukawa K , Zhong H , Iwama H , Endo T , Ito H , Hahn JH , Kim HI , Eun MY , Yano M , Jiang J , Gojobori T
Ref : Nature , 420 :312 , 2002
Abstract : The rice species Oryza sativa is considered to be a model plant because of its small genome size, extensive genetic map, relative ease of transformation and synteny with other cereal crops. Here we report the essentially complete sequence of chromosome 1, the longest chromosome in the rice genome. We summarize characteristics of the chromosome structure and the biological insight gained from the sequence. The analysis of 43.3 megabases (Mb) of non-overlapping sequence reveals 6,756 protein coding genes, of which 3,161 show homology to proteins of Arabidopsis thaliana, another model plant. About 30% (2,073) of the genes have been functionally categorized. Rice chromosome 1 is (G + C)-rich, especially in its coding regions, and is characterized by several gene families that are dispersed or arranged in tandem repeats. Comparison with a draft sequence indicates the importance of a high-quality finished sequence.
ESTHER : Sasaki_2002_Nature_420_312
PubMedSearch : Sasaki_2002_Nature_420_312
PubMedID: 12447438
Gene_locus related to this paper: orysa-Q9S7P1 , orysa-Q9FYP7 , orysa-Q5ZBH3 , orysa-Q5NA74 , orysa-Q5ZA26 , orysa-Q5JLP6 , orysa-Q94D81 , orysa-cbp , orysa-Q5VQE5 , orysa-Q8RZ95 , orysa-Q9AWW1 , orysa-Q9AS70 , orysa-Q0JK71 , orysa-Q8S1D9 , orysa-Q5N8V4 , orysa-Q943F9 , orysa-B9EWJ8 , orysa-Q5N8H1 , orysa-Q5NAI4 , orysa-Q94DP8 , orysa-Q658B2 , orysa-Q5JMQ8 , orysa-Q5QMD9 , orysa-Q5N7L1 , orysa-Q5N7J6 , orysa-Q8RYV9 , orysa-Q5SNH3 , orysa-Q94DD0 , orysa-Q8W0F0 , orysa-pir7a , orysa-pir7b , orysa-Q4VWY7 , orysa-q5jlm9 , orysa-q5na00 , orysa-q5nbu1 , orysa-Q5QLC0 , orysa-q5vnp5 , orysa-Q5VP27 , orysa-Q5ZAM8 , orysa-Q5ZBI5 , orysa-q5zc23 , orysa-Q5ZCR3 , orysa-Q8L562 , orysa-Q8L570 , orysa-Q8LQS5 , orysa-Q8RZ40 , orysa-Q8RZ79 , orysa-Q8S0U8 , orysa-Q8S0V0 , orysa-Q8S125 , orysa-Q9LHX5 , orysa-Q94E46 , orysa-Q656F2 , orysi-a2wn01 , orysi-b8a7e6 , orysi-b8a7e7 , orysj-b9eya5 , orysj-q5jl22 , orysj-q5jlw7 , orysj-q94d71