نتایج جستجو برای: nipponbare (sensitive)

تعداد نتایج: 282289  

Journal: :Genetics 2005
Tadamasa Ueda Tadashi Sato Jun Hidema Tokuhisa Hirouchi Kazuo Yamamoto Tadashi Kumagai Masahiro Yano

Rice qUVR-10, a quantitative trait locus (QTL) for ultraviolet-B (UVB) resistance on chromosome 10, was cloned by map-based strategy. It was detected in backcross inbred lines (BILs) derived from a cross between the japonica variety Nipponbare (UV resistant) and the indica variety Kasalath (UV sensitive). Plants homozygous for the Nipponbare allele at the qUVR-10 locus were more resistant to UV...

Journal: :Plant physiology 2008
Jian Li Yang Ya Ying Li Yue Jiao Zhang Shan Shan Zhang Yun Rong Wu Ping Wu Shao Jian Zheng

Rice (Oryza sativa) is the most aluminum (Al)-resistant crop species among the small-grain cereals, but the mechanisms responsible for this trait are still unclear. Using two rice cultivars differing in Al resistance, rice sp. japonica 'Nipponbare' (an Al-resistant cultivar) and rice sp. indica 'Zhefu802' (an Al-sensitive cultivar), it was found that Al content in the root apex (0-10 mm) was si...

2017
Guang Chen Chaolei Liu Zhenyu Gao Yu Zhang Anpeng Zhang Li Zhu Jiang Hu Deyong Ren Ling Yu Guohua Xu Qian Qian

Salinity imposes a major constraint over the productivity of rice. A set of chromosome segment substitution lines (CSSLs), derived from a cross between the japonica type cultivar (cv.) Nipponbare (salinity sensitive) and the indica type cv. 9311 (moderately tolerant), was scored using a hydroponics system for their salinity tolerance at the seedling stage. Two of the CSSLs, which share a ∼1.2 M...

Journal: :Genetics and molecular research : GMR 2016
L M Mertz-Henning C Pegoraro L C Maia E Venske C V Rombaldi A Costa de Oliveira

Although flooding is one of the most important environmental stresses worldwide, not all plant species are intolerant to its effects. Species from semi-aquatic environments, such as rice, have the capacity to cope with flooding stress. Heat-shock proteins (Hsps) are thought to contribute to cellular homeostasis under both optimal and adverse growth conditions. Studies of gene expression in plan...

Journal: :Molecular plant 2012
Haiyan Lin Peng Xia Rod A Wing Qifa Zhang Meizhong Luo

We constructed a physical map of O. sativa ssp. japonica cv. ZH11 and compared it and its random sample sequences with the Nipponbare RefSeq derived from the same subspecies. This comparison showed that the two japonica genomes were highly syntenic but revealed substantial differences in terms of structural variations, rates of substitutions and indels, and transposable element content. For exa...

2012
Yoshiko Nakaura Tomoyuki Ueda Takayuki Umemoto Kazuyuki Okamoto Naoyoshi Inouchi

Here we examined the properties of endosperm starches and the physical properties of cooked rice from four cultivars of Japanese upland rice containing M-type amylopectin (Chikanarijyun1, Kairyo13, Mogamichikanari1 and Hokkaiakage); S-type Nipponbare and L-type Kasalath served as standards. The amylopectin chain ratio (ACR ; ratio of the short chains of DP ≤ 10 to the short and intermediate cha...

2017
Wen Jing Ping Deng Chengjuan Cao Wenhua Zhang

Shoot K+ concentration (SKC) is an important physiological parameter used to evaluate salt tolerance at the seedling stage in rice (Oryza sativa L.). qSKC-1, a major quantitative trait locus for SKC in rice under salt stress, was detected on chromosome 1 using three F2 populations constructed by crossing 'Nipponbare' and its two salt-sensitive mutants (rss2 and rss4) with an indica cultivar 'Zh...

2015
Qiangming Liu Jiancai Qin Tianwei Li Erbao Liu Dejia Fan Wisdom Mawuli Edzesi Jianhai Liu Jianhua Jiang Xiaoli Liu Lianjie Xiao Linglong Liu Delin Hong Tongming Yin

The efficiency of hybrid seed production can be improved by increasing the percentage of exserted stigma, which is closely related to the stigma length in rice. In the chromosome segment substitute line (CSSL) population derived from Nipponbare (recipient) and Kasalath (donor), a single CSSL (SSSL14) was found to show a longer stigma length than that of Nipponbare. The difference in stigma leng...

Journal: :Biologia Plantarum 2021

With the extensive utilization of graphene nanomaterials, they inevitably enter our environment. The potential phytotoxicity and environmental impact oxide (GO) have recently attracted much attention. We designed experiment based on seed germination, seedling morphology, physio-biochemical properties, antioxidant enzyme activities five rice genotypes (9311, MH63, R527, K866, Nipponbare) under s...

Journal: :Plant physiology 2007
Jian Feng Ma Naoki Yamaji Kazunori Tamai Namiki Mitani

Rice (Oryza sativa) is a highly silicon (Si)-accumulating species that shows genotypic differences in Si accumulation. We investigated the physiological and molecular mechanisms involved in the genotypic difference in Si uptake between the japonica var. Nipponbare and the indica var. Kasalath. Both the Si concentration in the shoot and the Si uptake per root dry weight were higher in Nipponbare...

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