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2. Response of Japanese wheat varieties to three pathotypes of wheat yellow mosaic virus

Author

Shunsuke Oda, Masako Seki, Zenta Nishio, Chikako Kiribuchi-Otobe, Hisayo Kojima, Hitoshi Matsunaka, Takahide Sasaya, Koichi Hatta, Yumiko Fujita, Toshiyuki Takayama, and Makiko Chono

Subjects
0106 biological sciences, 0301 basic medicine, Genetics, Winter wheat, food and beverages, Plant Science, Horticulture, Biology, Quantitative trait locus, biology.organism_classification, 01 natural sciences, 03 medical and health sciences, 030104 developmental biology, Microsatellite, Christian ministry, Wheat yellow mosaic virus, Agronomy and Crop Science, Gene, 010606 plant biology & botany
Abstract

Yellow mosaic disease, caused by wheat yellow mosaic virus (WYMV), is one of the most serious diseases of winter wheat (Triticum aestivum L.) in Japan. WYMV pathotype I is distributed mainly in western and central Japan, pathotype II in northern Japan, and pathotype III on a part of the southern island of Japan. Major resistance genes and quantitative trait loci for WYMV were previously identified on wheat chromosomes 2DL, 3BS, and 5AL. We evaluated a total of 165 modern Japanese wheat varieties, released by the Ministry of Agriculture, Forestry and Fisheries, for response to the three pathotypes in field trials, and genotyped them using microsatellite markers associated with the three WYMV resistance genes. Based on the data, we propose a model for the relationship between the three resistance genes and WYMV pathotypes. The results strongly suggest that the resistance conferred by the gene on 5AL has broken down with emergence of pathotype III, which may be derived from pathotype I.

Published
2019
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3. Distribution of photoperiod-insensitive allele Ppd-A1a and its effect on heading time in Japanese wheat cultivars

Author

Hisayo Kojima, Masaya Fujita, Hidetaka Nishida, Masako Seki, Katashi Kubo, Kenji Kato, Chikako Kiribuchi-Otobe, Mikako Sato, Tsutomu Nishimura, Yasuhiro Yoshimura, Shunsuke Oda, Hitoshi Matsunaka, and Makiko Chono

Subjects
photoperiodism, business.industry, Winter wheat, food and beverages, Unique gene, chemical and pharmacologic phenomena, Plant Science, Biology, complex mixtures, respiratory tract diseases, Biotechnology, Horticulture, Genotype, Genetics, Grain yield, Cultivar, Allele, business, Agronomy and Crop Science
Abstract

The Ppd-A1 genotype of 240 Japanese wheat cultivars and 40 foreign cultivars was determined using a PCR-based method. Among Japanese cultivars, only 12 cultivars, all of which were Hokkaido winter wheat, carried the Ppd-A1a allele, while this allele was not found in Hokkaido spring wheat cultivars or Tohoku-Kyushu cultivars. Cultivars with a photoperiod-insensitive allele headed 6.9-9.8 days earlier in Kanto and 2.5 days earlier in Hokkaido than photoperiod-sensitive cultivars. The lower effect of photoperiod-insensitive alleles observed in Hokkaido could be due to the longer day-length at the spike formation stage compared with that in Kanto. Pedigree analysis showed that 'Purple Straw' and 'Tohoku 118' were donors of Ppd-A1a and Ppd-D1a in Hokkaido wheat cultivars, respectively. Wheat cultivars recently developed in Hokkaido carry photoperiod-insensitive alleles at a high frequency. For efficient utilization of Ppd-1 alleles in the Hokkaido wheat-breeding program, the effect of Ppd-1 on growth pattern and grain yield should be investigated. Ppd-A1a may be useful as a unique gene source for fine tuning the heading time in the Tohoku-Kyushu region since the effect of Ppd-A1a on photoperiod insensitivity appears to differ from the effect of Ppd-B1a and Ppd-D1a.

Published
2013
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4. Distribution of photoperiod-insensitive alleles Ppd-B1a and Ppd-D1a and their effect on heading time in Japanese wheat cultivars

Author

Chikako Kiribuchi-Otobe, Masaya Fujita, Hidetaka Nishida, Masako Seki, Hitoshi Matsunaka, Shunsuke Oda, Kenji Kato, Hisayo Kojima, Katashi Kubo, and Makiko Chono

Subjects
Heading (navigation), photoperiod response gene, Japanese wheat cultivars, chemical and pharmacologic phenomena, Plant Science, Biology, complex mixtures, heading date, Ppd-B1, wheat, Genotype, Genetics, Cultivar, Allele, photoperiodism, business.industry, food and beverages, hemic and immune systems, Ppd-D1, Research Papers, respiratory tract diseases, Biotechnology, Horticulture, Preharvest, business, Agronomy and Crop Science
Abstract

The genotypes of photoperiod response genes Ppd-B1 and Ppd-D1 in Japanese wheat cultivars were determined by a PCR-based method, and heading times were compared among genotypes. Most of the Japanese wheat cultivars, except those from the Hokkaido region, carried the photoperiod-insensitive allele Ppd-D1a, and heading was accelerated 10.3 days compared with the Ppd-D1b genotype. Early cultivars with Ppd-D1a may have been selected to avoid damage from preharvest rain. In the Hokkaido region, Ppd-D1a frequency was lower and heading date was late regardless of Ppd-D1 genotype, suggesting another genetic mechanism for late heading in Hokkaido cultivars. In this study, only 11 cultivars proved to carry Ppd-B1a, and all of them carried another photoperiod-insensitive allele, Ppd-D1a. The Ppd-B1a/Ppd-D1a genotype headed 6.7 days earlier than the Ppd-B1b/Ppd-D1a genotype, indicating a significant effect of Ppd-B1a in the genetic background with Ppd-D1a. Early-maturity breeding in Japan is believed to be accelerated by the introduction of the Ppd-B1a allele into medium-heading cultivars carrying Ppd-D1a. Pedigree analysis showed that Ppd-B1a in three extra-early commercial cultivars was inherited from ‘Shiroboro 21’ by early-heading Chugoku lines bred at the Chugoku Agriculture Experimental Station.

Published
2011
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5. Spontaneous Brassinolide-insensitive Barley Mutants ‘uzu’ Adapted to East Asia

Author

Ichiro Honda, Ken Ichi Tanno, Kazuyoshi Takeda, Makiko Chono, Hidemi Kitano, and Daisuke Saisho

Subjects
Genetics, education.field_of_study, Mutant, Population, Nucleic acid sequence, food and beverages, Plant Science, Biology, Dwarfing, chemistry.chemical_compound, chemistry, Genetic linkage, Brassinosteroid, Hordeum vulgare, education, Agronomy and Crop Science, Gene
Abstract

The uzu gene shows typical semi-dwarf plant type and has resulted in lodging resistance and improved canopy structure in barley (Hordeum vulgare L.). The geographic distribution of ‘uzu’ lines is limited in East Asia including Japan, Korean peninsula and China. For many years, majority of cultivated six-rowed barley varieties in southern Japan were ‘uzu’ type. Inheritance of the uzu gene, located on chromosome 3H, is monogenic recessive and the expression is pleiotropic during developmental process. In cereal crop plants, several semi-dwarf genes have been widely used in breeding programs to increase productivity and it is known that several of these semi-dwarf genes were derived from gibberellin (GA)-related mutations. The barley dwarfing gene uzu is independent to GA. This characteristics are known earlier. In this study, we characterized uzu gene in molecular aspects. As the result of comprehensive study using several pairs of isogenic lines, we found the morphological and physiological similarities of barley uzu gene to rice dwarf mutant, d61. D61 encodes OsBRI1, which is homologous gene for Brassinosteroid insensitive 1 in Arabidopsis. We also found that ‘uzu’ lines specific single nucleotide polymorphism (SNP) contributed for amino acid substitution in barley homologous sequence of OsBRI1, HvBRI1. Linkage analysis using a segregating population for uzu showed the co-segregation between uzu and HvBRI1. Furthermore, as the results of derived cleaved amplified polymorphic sequences (dCAPS) marker analysis using more than 260 ‘uzu’ landraces and the genomic sequencing analysis of HvBRI1 gene derived from 19 barley accessions, all the ‘uzu’ lines investigated in this study had the same SNP in putative kinase domain of HvBRI1. On the basis of these findings, we discussed the phylogeny of ‘uzu’ landraces in East Asia.

Published
2004
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6. Molecular and genealogical analysis of grain dormancy in Japanese wheat varieties, with specific focus on MOTHER OF FT AND TFL1 on chromosome 3A

Author

Masako Seki, Shingo Nakamura, Chikako Kiribuchi-Otobe, Hitoshi Matsunaka, Makiko Chono, Masaya Fujita, Hisayo Kojima, and Shunsuke Oda

Subjects
pre-harvest sprouting, fungi, Chromosome, food and beverages, grain dormancy, Single-nucleotide polymorphism, Plant Science, Biology, Horticulture, genealogical pedigree, Germination, Pre-harvest sprouting, Genotype, Botany, MFT, Genetics, SNP, Dormancy, Cultivar, Agronomy and Crop Science, Triticum aestivum L, Research Paper
Abstract

In the wheat (Triticum aestivum L.) cultivar 'Zenkoujikomugi', a single nucleotide polymorphism (SNP) in the promoter of MOTHER OF FT AND TFL1 on chromosome 3A (MFT-3A) causes an increase in the level of gene expression, resulting in strong grain dormancy. We used a DNA marker to detect the 'Zenkoujikomugi'-type (Zen-type) SNP and examined the genotype of MFT-3A in Japanese wheat varieties, and we found that 169 of 324 varieties carry the Zen-type SNP. In Japanese commercial varieties, the frequency of the Zen-type SNP was remarkably high in the southern part of Japan, but low in the northern part. To examine the relationship between MFT-3A genotype and grain dormancy, we performed a germination assay in three wheat-growing seasons. On average, the varieties carrying the Zen-type SNP showed stronger grain dormancy than the varieties carrying the non-Zen-type SNP. Among commercial cultivars, 'Iwainodaichi' (Kyushu), 'Junreikomugi' (Kinki-Chugoku-Shikoku), 'Kinuhime' (Kanto-Tokai), 'Nebarigoshi' (Tohoku-Hokuriku), and 'Kitamoe' (Hokkaido) showed the strongest grain dormancy in each geographical group, and all these varieties, except for 'Kitamoe', were found to carry the Zen-type SNP. In recent years, the number of varieties carrying the Zen-type SNP has increased in the Tohoku-Hokuriku region, but not in the Hokkaido region.

Published
2014

7. Isolation of a wheat (Triticum aestivum L.) mutant in ABA 8'-hydroxylase gene: effect of reduced ABA catabolism on germination inhibition under field condition

Author

Naoto Kawakami, Makiko Chono, Masaya Fujita, Masako Seki, Daisuke Kobayashi, Hisayo Kojima, Hitoshi Matsunaka, Chikako Kiribuchi-Otobe, and Shunsuke Oda

Subjects
dormancy, Mutant, Plant Science, Biology, medicine.disease_cause, ABA 8′-hydroxylase, abscisic acid, chemistry.chemical_compound, wheat, Botany, Genetics, medicine, Insertion, Gene, Abscisic acid, Triticum aestivum L, Mutation, pre-harvest sprouting, Catabolism, fungi, food and beverages, Molecular biology, Research Papers, chemistry, germination, Germination, Doubled haploidy, Agronomy and Crop Science
Abstract

Pre-harvest sprouting, the germination of mature seeds on the mother plant under moist condition, is a serious problem in cereals. To investigate the effect of reduced abscisic acid (ABA) catabolism on germination in hexaploid wheat (Triticum aestivum L.), we cloned the wheat ABA 8′-hydroxyase gene which was highly expressed during seed development (TaABA8′OH1) and screened for mutations that lead to reduced ABA catabolism. In a screen for natural variation, one insertion mutation in exon 5 of TaABA8′OH1 on the D genome (TaABA8′OH1-D) was identified in Japanese cultivars including ‘Tamaizumi’. However, a single mutation in TaABA8′OH1-D had no clear effect on germination inhibition in double haploid lines. In a screen for a mutation, one deletion mutant lacking the entire TaABA8′OH1 on the A genome (TaABA8′OH1-A), TM1833, was identified from gamma-ray irradiation lines of ‘Tamaizumi’. TM1833 (a double mutant in TaABA8′OH1-A and TaABA8′OH1-D) showed lower TaABA8′OH1 expression, higher ABA content in embryos during seed development under field condition and lower germination than those in ‘Tamaizumi’ (a single mutant in TaABA8′OH1-D). These results indicate that reduced ABA catabolism through mutations in TaABA8′OH1 may be effective in germination inhibition in field-grown wheat.

Published
2012

8. Alteration of PHYA expression change circadian rhythms and timing of bud set in Populus

Author

Makiko Chono, Eva Nylander, David Mozley, Maria E. Eriksson, Mikael Johansson, Erling Ögren, Cristian Ibáñez, Iwanka Kozarewa, and Thomas Moritz

Subjects
photoperiodism, Phytochrome, Light, Period (gene), Photoperiod, fungi, Circadian clock, Far-red, Plant Science, General Medicine, Biology, Genes, Plant, Plants, Genetically Modified, Cell biology, Circadian Rhythm, Phytochrome A, Populus, Gene Expression Regulation, Plant, Botany, Genetics, Dormancy, Circadian rhythm, Seasons, Agronomy and Crop Science
Abstract

In many temperate woody species, dormancy is induced by short photoperiods. Earlier studies have shown that the photoreceptor phytochrome A (phyA) promotes growth. Specifically, Populus plants that over-express the oat PHYA gene (oatPHYAox) show daylength-independent growth and do not become dormant. However, we show that oatPHYAox plants could be induced to set bud and become cold hardy by exposure to a shorter, non-24 h diurnal cycle that significantly alters the relative position between endogenous rhythms and perceived light/dark cycles. Furthermore, we describe studies in which the expression of endogenous Populus tremula × P. tremuloides PHYTOCHROME A (PttPHYA) was reduced in Populus trees by antisense inhibition. The antisense plants showed altered photoperiodic requirements, resulting in earlier growth cessation and bud formation in response to daylength shortening, an effect that was explained by an altered innate period that leads to phase changes of clock-associated genes such as PttCO2. Moreover, gene expression studies following far-red light pulses show a phyA-mediated repression of PttLHY1 and an induction of PttFKF1 and PttFT. We conclude that the level of PttPHYA expression strongly influences seasonally regulated growth in Populus and is central to co-ordination between internal clock-regulated rhythms and external light/dark cycles through its dual effect on the pace of clock rhythms and in light signaling.

Published
2010

9. Mapping a diploid wheat abscisic acid 8′-hydroxylase homologue in the seed dormancy QTL region on chromosome 5Am

Author

Fumitaka Abe, Hideho Miura, Shingo Nakamura, and Makiko Chono

Subjects
Genetics, chemistry.chemical_classification, biology, Seed dormancy, food and beverages, Chromosome, Plant Science, Horticulture, biology.organism_classification, Amino acid, chemistry.chemical_compound, chemistry, Arabidopsis, Dormancy, Ploidy, Agronomy and Crop Science, Gene, Abscisic acid
Abstract

In Arabidopsis, two genes of abscisic acid (ABA) 8′-hydroxylase (cytochrome P450 (CYP) 707A1 and A2) have been found to play important roles in seed dormancy through the regulation of ABA content in seeds. In order to examine the role of wheat ABA 8′-hydroxylase gene in seed dormancy, a diploid wheat ABA 8′-hydroxylase gene was cloned that showed high similarity to a barley ABA8′-hydroxylase gene (HvABA8′OH-2), and the cloned gene was designated as TmABA8′OH-2. Using recombinant inbred lines derived from a cross between diploid wheat Triticum boeoticum L. (Tb) and Triticum monococcum L. (Tm), TmABA8′OH-2 has been mapped to near the centromeric region of the long arm of chromosome 5Am, where the major seed dormancy QTL has been previously found. Comparison of the deduced amino acid sequences of TmABA8′OH-2 between Tb and Tm revealed five amino acid residue substitutions. These amino acid residues have distinctly different characteristics, and one of the substitutions occurs in the highly conserved amino acid residues in CYP707A family, indicating that these substitutions may have effects on the enzyme activities. Moreover, hexaploid wheat TmABA8′OH-2 homologue revealed that the level of its expression during seed development peaks at mid-maturation stage. This resembles the expression pattern of the Arabidopsis CYP707A1, which was shown to control seed dormancy. These results imply a possibility that TmABA8′OH-2 might be involved in seed dormancy, and associated with the QTL on chromosome 5Am.

Published
2009
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10. Cloning and overproduction of gibberellin 3-oxidase in hybrid aspen trees. Effects on gibberellin homeostasis and development

Author

Ewa J. Mellerowicz, Thomas Moritz, Maria Israelsson, Jonas Gullberg, and Makiko Chono

Subjects
DNA, Complementary, Physiology, Transgene, Molecular Sequence Data, Plant Science, Gene Expression Regulation, Enzymologic, Mixed Function Oxygenases, Salicaceae, Transcription (biology), Gene Expression Regulation, Plant, Arabidopsis, Genetics, Homeostasis, Cloning, Molecular, Overproduction, Plant Proteins, Regulation of gene expression, Oxidase test, biology, Gene Expression Regulation, Developmental, Sequence Analysis, DNA, biology.organism_classification, Plants, Genetically Modified, Gibberellins, Populus, Biochemistry, Hybridization, Genetic, Gibberellin, Research Article
Abstract

To broaden our understanding of gibberellin (GA) biosynthesis and the mechanism whereby GA homeostasis is maintained in plants, we have investigated the degree to which the enzyme GA 3-oxidase (GA3ox) limits the formation of bioactive GAs in elongating shoots of hybrid aspen (Populus tremula × Populus tremuloides). We describe the cloning of a hybrid aspen GA3ox and its functional characterization, which confirmed that it has 3β-hydroxylation activity and more efficiently converts GA9 to GA4 than GA20 to GA1. To complement previous studies, in which transgenic GA 20-oxidase (GA20ox) overexpressers were found to produce 20-fold higher bioactive GA levels and subsequently grew faster than wild-type plants, we overexpressed an Arabidopsis GA3ox in hybrid aspen. The generated GA3ox overexpresser lines had increased 3β-hydroxylation activity but exhibited no major changes in morphology. The nearly unaltered growth pattern was associated with relatively small changes in GA1 and GA4 levels, although tissue-dependent differences were observed. The absence of increases in bioactive GA levels did not appear to be due to feedback or feed-forward regulation of dioxygenase transcripts, according to semiquantitative reverse transcription polymerase chain reaction analysis of PttGA20ox1, PttGA3ox1, and two putative PttGA2ox genes. We conclude that 20-oxidation is the limiting step, rather than 3β-hydroxylation, in the formation of GA1 and GA4 in elongating shoots of hybrid aspen, and that ectopic GA3ox expression alone cannot increase the flux toward bioactive GAs. Finally, several lines of evidence now suggest that GA4 has a more pivotal role in the tree hybrid aspen than previously believed.

Published
2004

11. A semidwarf phenotype of barley uzu results from a nucleotide substitution in the gene encoding a putative brassinosteroid receptor

Author

Makiko Chono, Tsuguhiro Hoshino, Ichiro Honda, Kazuyoshi Takeda, Koichi Yoneyama, Haruko Zeniya, Suguru Takatsuto, Yoshiaki Watanabe, and Daisuke Saisho

Subjects
DNA, Complementary, Physiology, Mutant, Molecular Sequence Data, Dwarfism, Locus (genetics), Plant Science, Biology, Synteny, Chromosomes, Plant, chemistry.chemical_compound, Steroids, Heterocyclic, Plant Growth Regulators, Sequence Homology, Nucleic Acid, Brassinosteroids, Genetics, medicine, Brassinosteroid, Amino Acid Sequence, Cloning, Molecular, Gene, Plant Proteins, Oryza sativa, Base Sequence, Sequence Homology, Amino Acid, fungi, food and beverages, Chromosome Mapping, Hordeum, Oryza, Sequence Analysis, DNA, medicine.disease, biology.organism_classification, Plant Leaves, Phenotype, chemistry, Mutation, Hordeum vulgare, Protein Kinases, Cholestanols, Signal Transduction, Research Article
Abstract

Brassinosteroids (BRs) play important roles throughout plant growth and development. Despite the importance of clarifying the mechanism of BR-related growth regulation in cereal crops, BR-related cereal mutants have been identified only in rice (Oryza sativa). We previously found that semidwarf barley (Hordeum vulgare) accessions carrying the “uzu” gene, called “uzu” barley in Japan, are non-responding for brassinolide (BL). We then performed chemical and molecular analyses to clarify the mechanisms of uzu dwarfism using isogenic line pairs of uzu gene. The response of the uzu line to BL was significantly lower than that of its corresponding normal line. Measurement of BRs showed that the uzu line accumulates BRs, similar to known BR-insensitive mutants. The marker synteny of rice and barley chromosomes suggests that the uzu gene may be homologous to rice D61, a rice homolog of Arabidopsis BR-insensitive 1 (BRI1), encoding a BR-receptor protein. A barley homolog of BRI1, HvBRI1, was isolated by using degenerate primers. A comparison of HvBRI1 sequences in uzu and normal barley varieties showed that the uzu phenotype is correlated with a single nucleotide substitution. This substitution results in an amino acid change at a highly conserved residue in the kinase domain of the BR-receptor protein. These results may indicate that uzu dwarfism is caused by the missense mutation in HvBRI1. The uzu gene is being introduced into all hull-less barley cultivars in Japan as an effective dwarf gene for practical use, and this is the first report about an agronomically important mutation related to BRs.

Published
2003

12. CsAGP1, a gibberellin-responsive gene from cucumber hypocotyls, encodes a classical arabinogalactan protein and is involved in stem elongation

Author

Makiko Chono, J. Paul Knox, Me Hea Park, Yoshihito Suzuki, and Isomaro Yamaguchi

Subjects
Physiology, Nicotiana tabacum, Molecular Sequence Data, Plant Science, Antibodies, chemistry.chemical_compound, Mucoproteins, Plant Growth Regulators, Gene Expression Regulation, Plant, Gene expression, Tobacco, Genetics, Amino Acid Sequence, Gibberellic acid, Arabinogalactan protein, Plant Proteins, biology, Indoleacetic Acids, Plant Stems, fungi, food and beverages, Gene Expression Regulation, Developmental, biology.organism_classification, Plants, Genetically Modified, Gibberellins, Hypocotyl, Phenotype, Biochemistry, chemistry, Gibberellin, Proteoglycans, Cauliflower mosaic virus, Cucumis sativus, Cucumis, Solanaceae, Research Article
Abstract

Fluorescence differential display was used to isolate the gibberellin (GA)-responsive gene, CsAGP1, from cucumber (Cucumis sativus) hypocotyls. A sequence analysis ofCsAGP1 indicated that the gene putatively encodes a “classical” arabinogalactan protein (AGP) in cucumber. Transgenic tobacco (Nicotiana tabacum) plants overexpressingCsAGP1 under the control of the cauliflower mosaic virus 35S promoter produced a Y(βGlc)3-reactive proteoglycan in addition to AGPs present in wild-type tobacco plants. Immuno-dot blotting of the product, using anti-AGP antibodies, showed that the CsAGP1 protein had the AGP epitopes common to AGP families. The transcription level of CsAGP1 in cucumber hypocotyls increased in response not only to GA but also to indole-3-acetic acid. Although CsAGP1 is expressed in most vegetative tissues of cucumber, including the shoot apices and roots, the GA treatment resulted in an increase in the mRNA level of CsAGP1 only in the upper part of the hypocotyls. Y(βGlc)3, which selectively binds AGPs, inhibited the hormone-promoted elongation of cucumber seedling hypocotyls. Transgenic plants ectopically expressingCsAGP1 showed a taller stature and earlier flowering than the wild-type plants. These observations suggest thatCsAGP1 is involved in stem elongation.

Published
2003

13. cDNA cloning and characterization of a gibberellin-responsive gene in hypocotyls of Cucumis sativus L

Author

Noboru Murofushi, Hisakazu Yamane, Shinjiro Yamaguchi, Tadayuki Yamauchi, and Makiko Chono

Subjects
DNA, Complementary, DNA, Plant, Physiology, Molecular Sequence Data, Plant Science, Molecular cloning, Homology (biology), Complementary DNA, Amino Acid Sequence, RNA, Messenger, Cloning, Molecular, Gene, Plant Proteins, chemistry.chemical_classification, Genetics, Messenger RNA, biology, Base Sequence, fungi, food and beverages, Cell Biology, General Medicine, biology.organism_classification, Gibberellins, Hypocotyl, Amino acid, chemistry, Biochemistry, Gibberellin, Cucumis sativus, Cucumis
Abstract

A cDNA clone corresponding to a gibberellin-responsive gene (CRG16) was isolated from cucumber hypocotyls. CRG16 was deduced to encode an extremely hydrophobic protein of 65 amino acids. The deduced sequence exhibited no significant homology to other proteins. Levels of CRG16 mRNA reflected the gibberellin-induced elongation of cucumber hypocotyls.

Published
1996

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