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1. Utilization of lysed and dried bacterial biomass from the marine purple photosynthetic bacterium Rhodovulum sulfidophilum as a sustainable nitrogen fertilizer for plant production

Author

Shamitha Rao Morey-Yagi, Yu Kinoshita, Ko Motoki, Yu Iwahashi, Dao Duy Hanh, Shota Kato, Ryohei Nakano, Kumiko Ochiai, Masaru Kobayashi, Tetsuya Nakazaki, and Keiji Numata

Subjects
Agriculture (General), S1-972, Ecology, QH540-549.5
Abstract

Abstract Plant-based agricultural systems rely heavily on inorganic nitrogen (N) fertilizers to increase yields and ensure food security for the rapidly growing global population. However, the production and overuse of synthetic fertilizers lead to significant amounts of greenhouse gas emissions, causing a critical need for the development of alternative and sustainable organic N fertilizers. Here, we demonstrate the effective use of lysed and dried bacterial biomass from the marine purple photosynthetic bacterium Rhodovulum sulfidophilum as an alternative source of N fertilizer for the cultivation of Japanese mustard spinach (komatsuna, Brassica rapa var. perviridis). To assess the suitability of this processed bacterial biomass, containing approximately 11% N, as a N fertilizer, we examined the effects of its application on plant germination and growth (measured by leaf chlorophyll, maximum leaf length, and dry weight) under two different temperature regimes, comparing it to that of a conventional N-containing mineral fertilizer. Application at rates up to four times that of the mineral fertilizer had no negative effects on seed germination and plant growth. The bacterial biomass had to be applied at approximately twice the rate of mineral fertilizer to obtain similar plant growth parameters, roughly corresponding to the predicted 62% rate of mineralization of the bacterial N. Our findings confirm the ability of plants to take up N from the lysed and dried biomass of marine purple photosynthetic bacteria, demonstrating the potential for using R. sulfidophilum as a source of N fertilizer.

Published
2024
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2. RoseTracker: A system for automated rose growth monitoring

Author

Risa Shinoda, Ko Motoki, Kensho Hara, Hirokatsu Kataoka, Ryohei Nakano, Tetsuya Nakazaki, and Ryozo Noguchi

Subjects
Rose, Deep learning, Object detection, Tracking, Dataset, Agriculture (General), S1-972, Agricultural industries, HD9000-9495
Abstract

In cut-flower cultivation, production planning is an important task because demand fluctuates throughout the year. For precise cultivation planning, understanding the cultivation status is necessary by the growing stage. However, manually counting all the roses in the greenhouse to determine the cultivation status is difficult without incurring considerable time and labor. Some studies have engaged in detecting the number of flowers, but these studies used close-up images and could not count flowers without omissions or overlapping in an entire farm. In addition, limited datasets for object detection based on cut-flower blooming stages are available. In this study, we propose the RoseBlooming dataset and an efficient rose-monitoring system called RoseTracker to bridge the gap between computer vision techniques and the horticulture cultivation industry. The RoseBlooming dataset is the innovative dataset of labeled images for cut flowers at the growing stage. RoseTracker can detect small roses from various angles while moving the camera, reduces detection omissions, and achieves an F1 score of 0.950, thereby outperforming conventional models. For application, we used overhead images captured under actual growing conditions. RoseTracker and the RoseBlooming dataset contribute to constructing the rose-growth monitoring system in high demand worldwide.

Published
2023
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3. Non-vernalization Flowering and Seed Set of Cabbage Induced by Grafting Onto Radish Rootstocks

Author

Ko Motoki, Yu Kinoshita, and Munetaka Hosokawa

Subjects
cabbage, radish, grafting, vernalization, flowering, seed production, Plant culture, SB1-1110
Abstract

Cabbage (Brassica oleracea var. capitata) requires a long-term low-temperature exposure for floral induction, causing a delay in the breeding cycle. The objective of this study is to develop a method to induce flowering in cabbage without low-temperature treatment, using a grafting method. We conducted grafting experiments using two flower-induced Chinese kale cultivars (B. oleracea var. alboglabra) and seven radish cultivars/accessions as rootstocks and investigated the flowering response of grafted cabbage scions without low-temperature treatment. “Watanabe-seiko No.1” cabbage, when grafted onto the two Chinese kale cultivars, did not formed flower buds. Flowering was successfully induced in “Watanabe-seiko No.1” by grafting onto three out of the seven tested radish cultivars, and in “Kinkei No.201” and “Red cabbage” by grafting onto one tested radish cultivar. In “Watanabe-seiko No.1,” the earliest flower bud appearance was observed at 29 days after grafting. Seeds were also obtained from the three cabbage cultivars that flowered by grafting. Gene expression analysis of “Watanabe-seiko No.1” cabbage scions which formed flower buds by grafting, revealed high expression of the homolog of the floral integrator, SUPPRESSOR OF OVEREXPRESSION OF CONSTANS 1 (BoSOC1), at the time of flower bud appearance. However, in the same leaf samples, we observed low expression of two homologs of florigen, FLOWERING LOCUS T (BoFT.C2 and BoFT.C6). In addition, two homologs of the floral repressor FLOWERING LOCUS C (BoFLC3 and BoFLC4), which are known to be down-regulated before flower bud differentiation in the vernalization pathway, were highly expressed, indicating that grafting onto radish induces cabbage flowering independently of the vernalization pathway. The expression level of the radish FT homolog (RsFT) in “Rat’s tail-G2,” which had highly induced flowering in the grafted cabbage scion, was higher than in the other radish cultivars. However, although “Rat’s tail-CH” effectively induced flowering in the cabbage scion, the expression of RsFT was low in this cultivar. In this study, floral induction of non-vernalized cabbage cannot be explained by the expression levels of RsFT in rootstock plants, alone. The flowering of non-vernalized cabbage would be induced by transmissible agents from rootstocks and not by the expression of cabbage FT, BoFT, from the scion itself.

Published
2019
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5. Indicator Candidate Traits for Autonomous Fruit Set Ability Under High Temperatures in Capsicum

Author

Akira Yamazaki, Ao Takezawa, Ryohei Nakano, Kazusa Nishimura, Ko Motoki, Munetaka Hosokawa, and Tetsuya Nakazaki

Subjects
Soil Science, Plant Science, Horticulture, Agronomy and Crop Science, Food Science
Abstract

“Autonomous fruit set” refers to self-pollination and fruit set without pollen vectors such as vibration or insects. Autonomous fruit set under high-temperature stress is an important breeding goal as climate change can reduce fruit yields in Capsicum. We screened Capsicum cultivars for autonomous fruit set ability in a greenhouse environment and investigated pollen germination, viability, pollen grains number, chlorophyll fluorescence (Fv/Fm), style length, anther cone length, and anthesis stage under high temperatures in order to identify indicator traits for screening more genotypes with autonomous fruit set ability. The fruit set of the ‘Takanotsume’ (57.7 ± 20.6%) and ‘Goshiki Kyokko’ (52.2 ± 14.2%) cultivars (both C. annuum) were higher than those of other cultivars. Correlation analysis showed that pollen germination had the highest correlation with fruit set in C. annuum cultivars (r = 0.63). These results indicate that ‘Takanotsume’ and ‘Goshiki Kyokko’ are useful cultivars for novel breeding programs focusing on autonomous fruit sets under high temperatures, and pollen germination in C. annuum was a convincing candidate for an indicator trait of autonomous fruit set ability under high temperatures.

Published
2022

8. Upregulation of tandem duplicated BoFLC1 genes is associated with the non-flowering trait in Brassica oleracea var. capitata

Author

Yu Kinoshita, Ko Motoki, and Munetaka Hosokawa

Subjects
Genetics, General Medicine, Agronomy and Crop Science, Biotechnology
Abstract

The non-flowering natural cabbage mutant ‘nfc’ was discovered from the breeding line ‘T15’ with normal flowering characteristics. In this study, we investigated the molecular basis underlying the non-flowering trait of ‘nfc’. First, the ‘nfc’ was induced to flower using the grafting floral induction method, and three F2 populations were generated. The flowering phenotype of each F2 population was widely distributed with non-flowering individuals appearing in two populations. QTL-seq analysis detected a genomic region associated with flowering date at approximately 51 Mb on chromosome 9 in two of the three F2 populations. Subsequent validation and fine mapping of the candidate genomic region using QTL analysis identified the quantitative trait loci (QTL) at 50,177,696–51,474,818 bp on chromosome 9 covering 241 genes. Additionally, RNA-seq analysis of ‘nfc’ and ‘T15’ plants identified 36 differentially expressed genes related to flowering. Based on these results, we identified tandem duplicated BoFLC1 genes, which are homologs of floral repressor FLOWERING LOCUS C (FLC), as the candidate genes responsible for the non-flowering trait of ‘nfc’. We designated the tandem duplicated BoFLC1 genes as BoFLC1a and BoFLC1b. Expression analysis revealed that the expression levels of BoFLC1a and BoFLC1b were downregulated during winter in ‘T15’ but were upregulated and maintained during winter in ‘nfc’. Additionally, the expression level of the floral integrator BoFT was upregulated in the spring in ‘T15’ but hardly upregulated in ‘nfc’. These results suggest that the upregulated levels of BoFLC1a and BoFLC1b contributed to the non-flowering trait of ‘nfc’.

Published
2022

9. Degenerate oligonucleotide primer MIG-seq: an effective PCR-based method for high-throughput genotyping

Author

Kazusa Nishimura, Hiroyuki Kokaji, Ko Motoki, Akira Yamazaki, Kyoka Nagasaka, Rihito Takisawa, Yasuo Yasui, Takashi Kawai, Koichiro Ushijima, Masanori Yamasaki, Hiroki Saito, Ryohei Nakano, and Tetsuya Nakazaki

Abstract

SummaryMultiplexed inter-simple sequence repeats genotyping by sequencing (MIG-seq) is an next-generation sequencing library construction method developed for the analysis of DNA in ecology. Although MIG-seq can generate libraries from low-quality DNA, few polymorphisms can be obtained in species with small genomes. In this study, we developed degenerate oligonucleotide primer MIG-seq (dpMIG-seq) as an effective polymorphism discovery method that allows for variation in the number of polymorphisms while retaining the advantages of MIG-seq, including independence from DNA quality. In dpMIG-seq, a proportion of the simple sequence repeats in the primer sequence of the first PCR in MIG-seq was changed to degenerate oligonucleotides to enable annealing to a wider range of sequences. In tests of several crop species other than wheat, the number of loci that could be sequenced using dpMIG-seq with a data volume of 0.3 gigabases (Gb) was increased compared with that sequenced using MIG-seq. In wheat, the number of polymorphisms obtained via dpMIG-seq was higher than that obtained via MIG-seq when a data volume of about ≥2 Gb was obtained. In dpMIG-seq, different loci could be sequenced by changing the positions of the degenerate oligonucleotides. By applying dpMIG-seq, we constructed a linkage map consisting of 5,142 markers for the rice inter-subspecies F2 population, and we detected quantitative trait loci for heading date in the regions where known heading-related genes were located. Overall, our results show that dpMIG-seq is a useful tool for the genetic analysis of crop species.

Published
2022

11. Quantitative Analysis of Florigen for the Variability of Floral Induction in Cabbage/Radish Inter-generic Grafting

Author

Ko Motoki, Yu Kinoshita, Ryohei Nakano, Munetaka Hosokawa, and Tetsuya Nakazaki

Subjects
Plant Breeding, Physiology, Arabidopsis Proteins, Gene Expression Regulation, Plant, Arabidopsis, Cell Biology, Plant Science, General Medicine, Brassica, Flowers, Florigen, Raphanus
Abstract

Grafting-induced flowering is a key phenomenon to understand systemic floral induction caused by florigen. It can also be used as a breeding technique enabling rapid seed production of crops with long generation times. However, the degree of floral induction in grafted plants is often variable. Moreover, it is difficult in some crop species. Here, we explored the factors promoting variability in the grafting-induced flowering of cabbage (Brassica oleracea L. var. capitata), an important vegetable crop with a long generation time, via the quantitative analysis of florigen accumulation. Significant variability in the flowering response of grafted cabbage was observed when rootstocks of different genotypes were used. As reported previously, B. oleracea rootstocks did not induce the flowering of grafted cabbage plants, but radish (Raphanus sativus L.) rootstocks unstably did, depending on the accessions used. Immunoblotting analysis of the FLOWERING LOCUS T (FT) protein, a main component of florigen, revealed that floral induction was quantitatively correlated with the level of accumulated FT protein in the grafted scion. To identify rootstock factors that cause variability in the floral induction of the grafted scion, we investigated FT protein accumulation and flowering response in grafted scions when the transcription levels of FT and the leaf area of rootstocks were altered by vernalization, daylength and leaf trimming treatments. We concluded that increasing the total amount of FT protein produced in the rootstock is important for the stable floral induction of the grafted cabbage, and this can be accomplished by increasing FT transcription and the leaf area of the rootstock.

Published
2022

12. MIG-seq is an effective method for high-throughput genotyping in wheat (Triticum spp.)

Author

Kazusa Nishimura, Ko Motoki, Akira Yamazaki, Rihito Takisawa, Yasuo Yasui, Takashi Kawai, Koichiro Ushijima, Ryohei Nakano, and Tetsuya Nakazaki

Subjects
Genotype, Genetic Linkage, Quantitative Trait Loci, Chromosome Mapping, food and beverages, General Medicine, Polymorphism, Single Nucleotide, genotyping, wheat, MIG-seq, Genetics, Molecular Biology, Genome, Plant, Triticum
Abstract

MIG-seq (Multiplexed inter-simple sequence repeats genotyping by sequencing) has been developed as a low cost genotyping technology, although the number of polymorphisms obtained is assumed to be minimal, resulting in the low application of this technique to analyses of agricultural plants. We applied MIG-seq to 12 plant species that include various crops and investigated the relationship between genome size and the number of bases that can be stably sequenced. The genome size and the number of loci, which can be sequenced by MIG-seq, are positively correlated. This is due to the linkage between genome size and the number of simple sequence repeats (SSRs) through the genome. The applicability of MIG-seq to population structure analysis, linkage mapping, and quantitative trait loci (QTL) analysis in wheat, which has a relatively large genome, was further evaluated. The results of population structure analysis for tetraploid wheat showed the differences among collection sites and subspecies, which agreed with previous findings. Additionally, in wheat biparental mapping populations, over 3,000 SNPs/indels with low deficiency were detected using MIG-seq, and the QTL analysis was able to detect recognized flowering-related genes. These results revealed the effectiveness of MIG-seq for genomic analysis of agricultural plants with large genomes, including wheat.

Published
2022

14. Cryopreservation of viroid-infected chrysanthemum shoot tips

Author

Jing-Wei Li, Qiaochun Wang, Ko Motoki, Munetaka Hosokawa, Tomoyuki Nabeshima, and Haruka Yamada

Subjects
0106 biological sciences, 0301 basic medicine, Chrysanthemum chlorotic mottle viroid, Viroid, viruses, Chrysanthemum morifolium, fungi, food and beverages, Horticulture, Biology, biology.organism_classification, 01 natural sciences, Cryopreservation, 03 medical and health sciences, 030104 developmental biology, Key factors, Chrysanthemum stunt viroid, Shoot, 010606 plant biology & botany
Abstract

Chrysanthemum stunt viroid (CSVd) and chrysanthemum chlorotic mottle viroid (CChMVd) are the two viroids most frequently infecting chrysanthemum. This study attempted to cryopreserve in vitro shoot tips of Chrysanthemum morifolium ‘Piato’ infected with high or low titers of CSVd, and co-infected with CSVd and CChMVd. By optimizing several key factors including the time and light regimes during cold-hardening of stock shoots, and the size of shoot tips, an encapsulation-vitrification procedure was established for cryopreservation of viroid-infected shoot tips. Viroid-infected stock shoots were cold-hardened in vitro at 4 °C in a 16-h photoperiod for 6 weeks. Shoot tips (1.5 mm in size) containing 3-4 LPs were excised from the cold-hardened stock shoots and subjected to encapsulation-vitrification cryopreservation. With this protocol, about 65%, 45% and 42% of shoot regrowth levels were obtained in cryopreserved shoot tips derived from in vitro stock shoots infected with low or high titers of CSVd, and co-infected with CSVd and CChMVd, respectively. All regenerants from cryopreservation maintained their viroid-infected status, identical to those of their in vitro stock shoots. Histological observations and in situ hybridization elucidated why cryopreservation could maintain viroids in cryopreserved shoot tips. Cryopreservation of viroid-infected plant materials has potential applications to all types of viroid-related basic and applied studies.

Published
2019

16. Non-vernalization Flowering and Seed Set of Cabbage Induced by Grafting Onto Radish Rootstocks

Author

Munetaka Hosokawa, Ko Motoki, and Yu Kinoshita

Subjects
0106 biological sciences, 0301 basic medicine, FLOWERING LOCUS T, Plant Science, lcsh:Plant culture, Biology, cabbage, 01 natural sciences, 03 medical and health sciences, chemistry.chemical_compound, vernalization, food, Flowering Locus C, lcsh:SB1-1110, Cultivar, Original Research, flowering, Red cabbage, Bud, fungi, food and beverages, FLOWERING LOCUS C, Vernalization, biology.organism_classification, grafting, food.food, Horticulture, 030104 developmental biology, chemistry, seed production, radish, Brassica oleracea, Rootstock, Florigen, 010606 plant biology & botany
Abstract

Cabbage (Brassica oleracea var. capitata) requires a long-term low-temperature exposure for floral induction, causing a delay in the breeding cycle. The objective of this study is to develop a method to induce flowering in cabbage without low-temperature treatment, using a grafting method. We conducted grafting experiments using two flower-induced Chinese kale cultivars (B. oleracea var. alboglabra) and seven radish cultivars/accessions as rootstocks and investigated the flowering response of grafted cabbage scions without low-temperature treatment. “Watanabe-seiko No.1” cabbage, when grafted onto the two Chinese kale cultivars, did not formed flower buds. Flowering was successfully induced in “Watanabe-seiko No.1” by grafting onto three out of the seven tested radish cultivars, and in “Kinkei No.201” and “Red cabbage” by grafting onto one tested radish cultivar. In “Watanabe-seiko No.1,” the earliest flower bud appearance was observed at 29 days after grafting. Seeds were also obtained from the three cabbage cultivars that flowered by grafting. Gene expression analysis of “Watanabe-seiko No.1” cabbage scions which formed flower buds by grafting, revealed high expression of the homolog of the floral integrator, SUPPRESSOR OF OVEREXPRESSION OF CONSTANS 1 (BoSOC1), at the time of flower bud appearance. However, in the same leaf samples, we observed low expression of two homologs of florigen, FLOWERING LOCUS T (BoFT.C2 and BoFT.C6). In addition, two homologs of the floral repressor FLOWERING LOCUS C (BoFLC3 and BoFLC4), which are known to be down-regulated before flower bud differentiation in the vernalization pathway, were highly expressed, indicating that grafting onto radish induces cabbage flowering independently of the vernalization pathway. The expression level of the radish FT homolog (RsFT) in “Rat’s tail-G2,” which had highly induced flowering in the grafted cabbage scion, was higher than in the other radish cultivars. However, although “Rat’s tail-CH” effectively induced flowering in the cabbage scion, the expression of RsFT was low in this cultivar. In this study, floral induction of non-vernalized cabbage cannot be explained by the expression levels of RsFT in rootstock plants, alone. The flowering of non-vernalized cabbage would be induced by transmissible agents from rootstocks and not by the expression of cabbage FT, BoFT, from the scion itself.

Published
2019

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