Your search keyword '"Interspecific hybrid"' showing total 614 results

1. Unravelling the novel sex determination genotype with 'ZY' and a distinctive 2.15–2.95 Mb inversion among poplar species through haplotype‐resolved genome assembly and comparative genomics analysis.

Author

Li, Juan, Chen, Tingting, Gao, Kai, Xue, Yinxuan, Wu, Ruqian, Guo, Bin, Chen, Zhong, Li, Shanwen, Zhang, Ren‐Gang, Jia, Kai‐Hua, Mao, Jian‐Feng, and An, Xinmin

Subjects

*SEX determination, *ECOLOGICAL genetics, *SEX differentiation (Embryology), *GENOME size, *FOREST productivity, *POPLARS

Abstract

Populus tomentosa, an indigenous tree species, is widely distributed and cultivated over 1,000,000 km2 in China, contributing significantly to forest production, ecological conservation and urban–rural greening. Although a reference genome is available for P. tomentosa, the intricate interspecific hybrid origins, chromosome structural variations (SVs) and sex determination mechanisms remain confusion and unclear due to its broad and even overlapping geographical distribution, extensive morphological variations and cross infiltration among white poplar species. We conducted a haplotype‐resolved de novo assembly of P. tomentosa elite individual GM107, which comprises subgenomes a and b with a total genome size of 714.9 Mb. We then analysed the formation of hybrid species and the phylogenetic evolution and sex differentiation across the entire genus. Phylogenomic analyses suggested that GM107 likely originated from a hybridisation event between P. alba (♀) and P. davidiana (♂) which diverged at approximately 3.8 Mya. A total of 1551 chromosome SVs were identified between the two subgenomes. More noteworthily, a distinctive inversion structure spanning 2.15–2.95 Mb was unveiled among Populus, Tacamahaca, Turaga, Aigeiros poplar species and Salix, highlighting a unique evolutionary feature. Intriguingly, a novel sex genotype of the ZY type, which represents a crossover between XY and ZW systems, was identified and confirmed through both natural and artificial hybrids populations. These novel insights offer significant theoretical value for the study of the species' evolutionary origins and serve as a valuable resource for ecological genetics and forest biotechnology. [ABSTRACT FROM AUTHOR]

Published

2024

2. Tetraploid interspecific hybrids between Asian and African rice species restore fertility depending on killer–protector loci for hybrid sterility.

Author

Kuniyoshi, Daichi, Ishihara, Megumi, Yamamori, Koichi, Koide, Yohei, and Kishima, Yuji

Subjects

*FERTILITY, *POLLEN, *RESEARCH funding, *RICE, *GENETIC engineering, *INFERTILITY, *CHROMOSOME abnormalities, *PLANTS, *PLANT physiology, *AGRICULTURE

Abstract

Interspecific F1 hybrids between Asian (Oryza sativa) and African rice (Oryza glaberrima) exhibit severe sterility caused by the accumulation of hybrid sterility genes/loci at 15 or more loci. The mechanisms underlying the hybrid sterility genes are largely unknown; however, a few genes associated with the killer–protector system, which is the system most frequently associated with hybrid sterility genes, have been identified. We previously produced fertile plants as tetraploids derived from diploid interspecific F1 hybrids through anther culture; therefore, it was suggested that hybrid sterility could be overcome following tetraploidization. We investigated whether tetraploid interspecific plants produced by crossing are fertile and tested the involvement of hybrid sterility genes in the process. Fertile tetraploid interspecific F1 hybrid plants were obtained by crossing 2 tetraploids of O. sativa and O. glaberrima. To elucidate the relationships between pollen fertility and the hybrid sterility loci in the tetraploid F1 microspores, we performed genetic analyses of the tetraploid F2 hybrids and diploid plants obtained from the microspores of tetraploid interspecific hybrids by anther culture. The result suggested that the tetraploid interspecific hybrids overcame pollen and seed infertility based on the proportion of loci with the killer–protector system present in the tetraploids. The heterozygous hybrid sterility loci with the killer–protector system in the tetraploid segregate the homozygous killed allele (16.7–21.4%), with more than three-quarters of the gametes surviving. We theoretically and experimentally demonstrated that fertile rice progenies can be grown from tetraploid interspecific hybrids. [ABSTRACT FROM AUTHOR]

Published

2024

3. Selection of Saccharum spp. × Saccharum spontaneum progeny for sugar and biomass traits.

Author

Ngaklunchon, Rungtip, Jongrungklang, Nakorn, Ukoskit, Kittipat, Kimbeng, Collins, Zhou, Marvellous, and Songsri, Patcharin

Subjects

*GENETIC variation, *BIOMASS, *SACCHARUM, *PLANT clones, *GERMPLASM, *SUGARCANE

Abstract

This study evaluated an interspecific hybrid (Saccharum spp. × S. spontaneum) population with the aim of developing germplasm for use in both sugar and bioenergy (biomass) production. Specific objectives were to determine the genetic variability and heritability among the interspecific hybrid progenies for traits of economic importance and to use the Best Linear Unbiased Predictions (BLUPs) to determine their genotypic values. The 46 interspecific hybrids used in this study originated from crossing commercial sugarcane cultivars (UT5, F152, and KK07–559) as female and S. spontaneum clones (THS98–41, THS98–91, THS98–95, THS98–94, and THS97–51) as male parents. There were significant residual variances, attributed to the small plot size, but the juice quality traits were measured with relatively higher precision than other traits. Selection recommendations varied for different traits, suggesting selection pressure could be moderate to high for juice quality traits and moderate for yield-related traits. No hybrid genotypes were found to outperform cultivar parents for traits such as commercial cane sugar and low fiber, necessitating further germplasm enhancement for improvement of varieties destined for sugar production. On the contrary, transgressive segregation was observed for cane yield and other traits influencing biomass yield. The production potential of these hybrids could be tested in larger plots across multiple locations. [ABSTRACT FROM AUTHOR]

Published

2024

4. Chemical quality evaluation and characteristics of interspecific hybrid (G. uralensis × G. glabra) C-18 strain as a new Licorice cultivar.

Author

Shibano, Makio, Matsuda, Koki, and Ozaki, Kazuo

Abstract

The development of new cultivars is essential for establishing a method of producing licorice in Japan. A suitable new cultivar for domestic licorice production, known as the interspecific hybrid strain C-18, was developed by crossbreeding Glycyrrhiza uralensis Fisch. (as the seed parent, possessing a high glycyrrhizin (GL) content, strain OMP-28) and Glycyrrhiza glabra L. (as the pollen parent, known for vigorous growth, strain OMP-10). Both G. uralensis and G. glabra are specified in the Pharmacopoeia of Japan (18th edition) as the source plants for Glycyrrhizae Radix. After 2 years of cultivation, strain C-18 exhibited robust growth, with a fresh weight of 148.8 g and a stem diameter of 0.89 mm. The GL content in the dry weight was measured at 3.61%. Seedlings cultivated from rhizomes in the field for 2 years showed a tap root fresh weight per plant of 120 ± 21 g, with an average GL content relative to the dry weight of 2.68% ± 0.38%. Although glabridin, a characteristic compound of G. glabra, was not detected, glycycoumarin, a characteristic compound of G. uralensis, was detected via HPLC analysis. Strain C-18 contained glycycoumarin as a characteristic compound of G. uralensis but lacked glabridin, a compound characteristic of G. glabra. Additionally, 2,3-dehydrokievitone (1) and parvisoflavone A (2) were identified as distinctive components of the interspecific hybrid (G. uralensis × G. glabra) C-18. [ABSTRACT FROM AUTHOR]

Published

2024

5. Effects of Spring Freeze Damage and Training Systems on the Viticulture Performance of Young ‘Marquette’ Grapevines

Author

Michela Centinari and Donald E. Smith

Subjects

cool climate, early budburst, frost, grape production, interspecific hybrid, vitis sp., Plant culture, SB1-1110

Abstract

‘Marquette’ is a cold-hardy hybrid grape cultivar that has received increased attention for its use in wine production in the upper midwestern and northeastern United States since it was released in 2006. However, ‘Marquette’ is an early budburst cultivar susceptible to spring freeze damage. We examined the influence of high wire bilateral flat cane (HWC) and four-arm Kniffin (4AK) training systems on young ‘Marquette’ performance during a year with spring freeze damage (2017) and the subsequent season without frost events (2018). In 2017, there were two consecutive spring frost events at the experimental site approximately 2 weeks after the vines reached 50% budburst, which damaged more than 70% of the shoots. The percentage of freeze-damaged shoots and the severity of freeze damage to green tissues did not differ between training systems, but 4AK vines had higher yield at harvest (5.16 kg/vine or 3.12 tons/acre) than HWC vines (3.45 kg/vine or 2.10 tons/acre) because of the greater number of buds retained at winter pruning. There was no freeze damage close to budburst in 2018, and the yield of 4AK vines was still higher (11.74 kg/vine or 7.08 tons/acre) than that of HWC vines (8.20 kg/vine or 4.98 tons/acre). In 2018, the Ravaz index (yield-to-pruning weight) values were lower for HWC vines (3.41) than for 4AK vines (5.39), but the training system did not consistently affect fruit composition in either vintage. Within the 4AK system, shoots that emerged from the lower cane had more freeze damage than those of the upper cane and produced lower crop yield and fruit with lower soluble sugars in both vintages. Our results suggest that ‘Marquette’ vines can be grown on a training system with high cropping potential, such as a divided canopy system or a single canopy, with a higher number of buds and shoots than that of our study. Among divided canopy systems, 4AK might not be the best option for vigorous ‘Marquette’ vines because, in addition to greater susceptibility to freeze damage, the lower cane of 4AK was highly shaded by the upper highly vegetative canopy, which might have caused its lower productivity and soluble sugars at harvest compared with those of the upper cane.

Published

2024

6. Preliminary quality results regarding S.V.-18402 interspecific hybrid berries processed by multiple techniques to obtain a novel food product

Author

R. Sandor, T. M. Gocan, F. D. Bora, Ad. Hoble, A. C. Babeș, R. Indrea, C. I. Bunea, and Am. Călugăr

Subjects

grape, interspecific hybrid, jam, dry substance, organoleptic appreciation, Plant culture, SB1-1110

Abstract

In this study, SV 18402 interspecific hybrid (PIWI group grapevines) was subjected to processing by syruping the berries before boiling. The variants were: V1.1. - grape product from berries without skin – filtered; V1.2. - grape product from berries without skin – unfiltered; V2.1. - grape product from berries with skin– filtered; V2.2. - grape product from berries with skin – unfiltered. Before processing, raw material was assessed for total soluble solids (186 g/l sugar), pH (3.25), and acidity (7.35 g/l tartric acid). The variants of products measure soluble dry substance over 67% the minimum amount stipulated by the international standard, which guarantees the conservability of the product. Regarding sensory comparison, products from the whole berries (skin, pulp, and seeds) proved to be more acceptable by the general public, as compared to the other variants.

Published

2023

7. Distribution of Cronartium x flexili, an interspecific hybrid of two fungal tree rust pathogens, in subalpine forest ecosystems of western USA.

Author

Kozhar, Olga, Burns, Kelly S., Schoettle, Anna W., and Stewart, Jane E.

Subjects

*LODGEPOLE pine, *FOREST health, *GENE flow, *INTRODUCED species, *FOREST reserves, *TYPHA latifolia

Abstract

Interspecific hybridization plays a key role in the evolution of novel fungal pathogens, and when it occurs between native and invasive species, can lead to potentially serious consequences. In this study, we examined the temporal and spatial distribution of a recently detected hybrid (Cronartium x flexili) of two tree pathogens, invasive to North America Cronartium ribicola and native Cronartium comandrae. In total, 726 and 1452 aecia from 178 Pinus contorta ssp. latifolia and 357 Pinus flexilis trees were collected from 26 sites in four national forests in 2019–2021. Using morphological and molecular analyses, 71 aecia collected from 25 P. flexilis trees had intermediate morphology and contained heterozygous SNPs in two genomic regions. Population analyses revealed the presence of multiple hybrid genotypes randomly distributed among sites and years. No aecia from P. contorta ssp. latifolia were identified as hybrids suggesting unidirectional gene flow from native C. comandrae to invasive C. ribicola. Aeciospores from 2 hybrid aecia produced urediniospores on Ribes nigrum. Overall, these results suggest that, even though low in frequency, C. x flexili is persistent in the region and has pathogenic potential. Hybrid expansion into the large range of susceptible pines could have cascading impacts on forest health. • Hybrid Cronartium x flexili is persistent in subalpine ecosystems of western USA. • C. flexili spores were detected only on a host of an invasive parent C. ribicola. • Novel alleles and multiple hybrid genotypes were detected in two genomic regions. • Genotypes were randomly distributed, indicating independent hybridization events. • Aeciospores from 2 hybrid aecia were pathogenic on C. ribicola alternate host. [ABSTRACT FROM AUTHOR]

Published

2024

8. Transcriptional activity of mitochondrial genes in intraspecific and interspecific sunflower hybrids

Author

M. S. Makarenko and V. А. Gavrilova

Subjects

intraspecific hybrid, interspecific hybrid, mitochondrial genes, sunflower, gene expression, helianthus argophyllus, Biotechnology, TP248.13-248.65

Abstract

Relevance. The genetic structure of plant cells implies the coordinated work of three genomes: nuclear, plastid, and mitochondrial. Hybridization between genetically heterogeneous parents can lead to changes in the established nuclear-cytoplasmic balance, which in turn can affect the level and consistency of their gene expression. Changes in the transcriptional activity of organelle genes (in particular, mitochondria) during distant (interspecific) hybridization remain poorly understood. Results. The present study employed the qPCR technique to evaluate the transcriptional activity level of the mitochondrial genes atp1, atp4, atp6, atp9, nad3, nad6, cox1, and cox3 in intra- and interspecific sunflower hybrids and their parental forms from the VIR collection. According to the analyzed transcriptional activity of mitochondrial genes, they can be divided into three groups: genes with a relatively high level of expression – atp1, atp6, and nad6, those with a medium level of expression – atp4, cox1, cox3, and genes with a low level of expression – atp9 and nad3. Comparative analysis showed no significant difference (P

Published

2023

9. POLYPLOIDISATION EFFECT ON TRICHOME DENSITY IN INTERSPECIFIC HYBRIDS OF Pennisetum glaucum (L.) R. BR. × Pennisetum purpureum (K.) SCHUM.

Author

KAUR, Arshpreet, KAPOOR, Rahul, and KALIA, Anu

Subjects

*PEARL millet, *CENCHRUS purpureus, *SCANNING electron microscopy, *PLOIDY, *POLYPLOIDY, *DENSITY

Abstract

This study is aimed at testing the efficiency of colchicine on inducing polyploidy in Pennisetum glaucum (L.) R. Br. × P. purpureum (K.) Schum (BNH) and to investigate the effect of polyploidy on trichome density. Root cuttings of 4 hybrids and two check varieties were treated with different concentrations of colchicine (0, 0.05%, 0.1% and 0.2%) for different time durations (12 and 24 hrs). The ploidy level of plants was confirmed by cytogenetic studies using conventional protocol. Colchicine concentration of 0.1% for 24 hrs was found to induce polyploidy in PBN 233. Trichome density was investigated using Scanning Electron Microscopy at 100X. During the study, it was found that the trichome density decreases with increase in ploidy level. [ABSTRACT FROM AUTHOR]

Published

2023

10. Jute Interspecific Hybrids: Development, Characterization and Utilization

Author

Kumar, A. Anil, Sharma, Hariom Kumar, Maruthi, R. T., Kumari, Neetu, Jha, Basant Kumar, Choudhary, Shashi Bhushan, Kole, Chittaranjan, Series Editor, Zhang, Liwu, editor, and Khan, Haseena, editor

Published

2022

11. Genome diversity of Leishmania aethiopica.

Author

Hadermann, Amber, Heeren, Senne, Maes, Ilse, Dujardin, Jean-Claude, and Domagalska, Malgorzata Anna

Subjects

GENE conversion, LEISHMANIA, GENOMES, CUTANEOUS leishmaniasis, SAND flies, HETEROZYGOSITY

Abstract

Leishmania aethiopica is a zoonotic Old World parasite transmitted by Phlebotomine sand flies and causing cutaneous leishmaniasis in Ethiopia and Kenya. Despite a range of clinical manifestations and a high prevalence of treatment failure, L. aethiopica is one of the most neglected species of the Leishmania genus in terms of scientific attention. Here, we explored the genome diversity of L. aethiopica by analyzing the genomes of twenty isolates from Ethiopia. Phylogenomic analyses identified two strains as interspecific hybrids involving L. aethiopica as one parent and L. donovani and L. tropica respectively as the other parent. High levels of genome-wide heterozygosity suggest that these two hybrids are equivalent to F1 progeny that propagated mitotically since the initial hybridization event. Analyses of allelic read depths further revealed that the L. aethiopica - L. tropica hybrid was diploid and the L. aethiopica - L. donovani hybrid was triploid, as has been described for other interspecific Leishmania hybrids. When focusing on L. aethiopica, we show that this species is genetically highly diverse and consists of both asexually evolving strains and groups of recombining parasites. A remarkable observation is that some L. aethiopica strains showed an extensive loss of heterozygosity across large regions of the nuclear genome, which likely arose from gene conversion/mitotic recombination. Hence, our prospection of L. aethiopica genomics revealed new insights into the genomic consequences of both meiotic and mitotic recombination in Leishmania. [ABSTRACT FROM AUTHOR]

Published

2023

12. Both male and female meiosis contribute to non‐Mendelian inheritance of parental chromosomes in interspecific plant hybrids (Lolium × Festuca).

Author

Majka, Joanna, Glombik, Marek, Doležalová, Alžběta, Kneřová, Jana, Ferreira, Marco Tulio Mendes, Zwierzykowski, Zbigniew, Duchoslav, Martin, Studer, Bruno, Doležel, Jaroslav, Bartoš, Jan, and Kopecký, David

Subjects

*HEREDITY, *RYEGRASSES, *FESCUE, *PLANT chromosomes, *MEIOSIS, *GENE expression profiling

Abstract

Summary: Some interspecific plant hybrids show unequal transmission of chromosomes from parental genomes to the successive generations. It has been suggested that this is due to a differential behavior of parental chromosomes during meiosis. However, underlying mechanism is unknown.We analyzed chromosome composition of the F2 generation of Festuca × Lolium hybrids and reciprocal backcrosses to elucidate effects of male and female meiosis on the shift in parental genome composition. We studied male meiosis, including the attachment of chromosomes to the karyokinetic spindle and gene expression profiling of the kinetochore genes.We found that Lolium and Festuca homoeologues were transmitted differently to the F2 generation. Female meiosis led to the replacement of Festuca chromosomes by their Lolium counterparts. In male meiosis, Festuca univalents were attached less frequently to microtubules than Lolium univalents, lagged in divisions and formed micronuclei, which were subsequently eliminated.Genome sequence analysis revealed a number of non‐synonymous mutations between copies of the kinetochore genes from Festuca and Lolium genomes. Furthermore, we found that outer kinetochore proteins NDC80 and NNF1 were exclusively expressed from the Lolium allele. We hypothesize that silencing of Festuca alleles results in improper attachment of Festuca chromosomes to karyokinetic spindle and subsequently their gradual elimination. [ABSTRACT FROM AUTHOR]

Published

2023

13. Species identification of butterfly individuals with wing patterns intermediate between related species by using DNA sequences, and proposal of a new distinguishing criterion in wing spot pattern between Parnara guttata and Zinaida pellucida.

Author

WATARU MITSUHASHI, NORIAKI ASOU, KOTA AOKI, and MASAYA YAGO

Abstract

Wing and spot patterns in butterflies vary somewhat within species. In addition, some butterflies have wing patterns intermediate between two related species. Identification of some of such individuals can be problematic. Here, we investigated two specimens that have a wing pattern intermediate between Parnara guttata (Bremer & Grey) and Zinaida pellucida (Murray), and another specimen of Melanitis phedima (Cramer) that has a wing pattern slightly similar to Melanitis leda (Linnaeus). We analyzed sequences of mitochondrial and nuclear genes for NADH dehydrogenase subunit 5 (ND5) and elongation factor-1 alpha (EF-1α), respectively, from these specimens. Double peaks which would suggest interspecific hybrids were not detected at any nucleotide position in the electropherograms of the EF-1α genes, in which nucleotides differ between the two species of each pair. The results of these analyses indicate that these specimens are not F1 interspecific hybrids but are P. guttata, Z. pellucida, and M. phedima, respectively. We also describe a new distinction in the pattern of the white spots on the forewings that can be used to discriminate between P. guttata and Z. pellucida. This feature is more reliable than the traditional criterion of the pattern of the white spots on the hindwings. [ABSTRACT FROM AUTHOR]

Published

2023

14. Genetic Nature of Fertility Type in Cotton Hybrids

Author

Khalikova Malokhat, Matyakubova Elmira, Uzokov Turgun, and Soriyeva Sayyora

Subjects

cotton, ridge, wild type, spider mite, interspecific hybrid, immunity, sucking pest, leaf hairiness, inheritance, dominance, Microbiology, QR1-502, Physiology, QP1-981, Zoology, QL1-991

Abstract

Studies have been conducted to evaluate the genetic potential of cotton species and to develop disease and pest resistant cotton varieties from them. The significance of the level of leaf hairiness in the representatives of the Gossypium L. family in tolerance to sucking pests, spider mite, aphid, was studied. Resources were obtained to measure or qualitatively assess leaf hairiness, transfer the hairiness marker for pest tolerance into the genome of G. hirsutum L., and create cultivars with a combination of tolerance and economic traits. In the C2 plants of the combinations obtained by cross-breeding the wild-type ridges with twisting hairiness with the analyzer L-001 line, separation of the hairiness character was noted, its ratio was 3:1 according to the phenotype (1:2:1 according to the genotype). This separation in second-generation hybrids indicates that the feather shape trait is monogenic in nature.

Published

2024

15. ‘USDA-Spiers’ Rabbiteye Blueberry

Author

Stephen J. Stringer, Arlen D. Draper, Blair J. Sampson, Hamidou F. Sakhanokho, and Ebrahiem Babiker

Subjects

blueberry breeding, interspecific hybrid, vaccinium virgatum, Plant culture, SB1-1110

Published

2023

16. Genome diversity of Leishmania aethiopica

Author

Amber Hadermann, Senne Heeren, Ilse Maes, Jean-Claude Dujardin, Malgorzata Anna Domagalska, and Frederik Van den Broeck

Subjects

population genomics, hybridization, loss-of-heterozygosity (LOH), asexual evolution, interspecific hybrid, triploid hybrid, Microbiology, QR1-502

Abstract

Leishmania aethiopica is a zoonotic Old World parasite transmitted by Phlebotomine sand flies and causing cutaneous leishmaniasis in Ethiopia and Kenya. Despite a range of clinical manifestations and a high prevalence of treatment failure, L. aethiopica is one of the most neglected species of the Leishmania genus in terms of scientific attention. Here, we explored the genome diversity of L. aethiopica by analyzing the genomes of twenty isolates from Ethiopia. Phylogenomic analyses identified two strains as interspecific hybrids involving L. aethiopica as one parent and L. donovani and L. tropica respectively as the other parent. High levels of genome-wide heterozygosity suggest that these two hybrids are equivalent to F1 progeny that propagated mitotically since the initial hybridization event. Analyses of allelic read depths further revealed that the L. aethiopica - L. tropica hybrid was diploid and the L. aethiopica - L. donovani hybrid was triploid, as has been described for other interspecific Leishmania hybrids. When focusing on L. aethiopica, we show that this species is genetically highly diverse and consists of both asexually evolving strains and groups of recombining parasites. A remarkable observation is that some L. aethiopica strains showed an extensive loss of heterozygosity across large regions of the nuclear genome, which likely arose from gene conversion/mitotic recombination. Hence, our prospection of L. aethiopica genomics revealed new insights into the genomic consequences of both meiotic and mitotic recombination in Leishmania.

Published

2023

17. Evaluating the Effects of Early Pruning, Leaf Removal, and Shoot Thinning on 'MidSouth' Grapes over Two Consecutive Vintages in South Mississippi.

Author

Williams, Haley N., Stafne, Eric T., Zhang, Yan, and Chang, Sam K.C.

Subjects

*FRUIT composition, *DATE palm, *GRAPE ripening, *FRUIT yield, *GRAPES, *CLIMBING plants, *BERRIES, *HYBRID rice

Abstract

Yield components and fruit composition of 'MidSouth', an interspecific hybrid bunch grape (Vitis spp.) with relatively low total soluble solids and high titratable acidity, was evaluated in south Mississippi to determine if treatments consisting of early pruning, early pruning with pre-bloom leaf removal, normal pruning with post-fruit set leaf removal, or normal pruning in one study, or post-fruit set leaf removal, post-fruit set shoot thinning, or neither leaf removal nor shoot thinning in a second study could improve these qualities. Early pruning with leaf removal reduced berries per cluster, cluster weights, yields, and Ravaz index. Early pruning treatments had inconsistent results from year to year, and normal pruning treatments were not often significantly different. Shoot thinned vines had lower yields and Ravaz index and higher total soluble solids. Second study leaf removal vines had lower juice pH in 2020 and lower yield per vine in 2021. These findings show that 'MidSouth' can be altered by these practices, but they did not appear to sufficiently alter 'MidSouth' quality. Thus, early pruning with or without leaf removal, normal pruning with leaf removal, and shoot thinning are not recommended for 'MidSouth' in south Mississippi, and normal pruning without these practices should be continued. [ABSTRACT FROM AUTHOR]

Published

2023

18. Genetic relationship and diversity of cultivars and breeding lines of tetraploid Italian ryegrass (Lolium multiflorum Lam.) and its hybrids with Lolium‐Festuca complex based on genome‐wide allele frequency.

Author

Tamura, Ken‐ichi, Kiyoshi, Takako, Kubota, Akito, Arakawa, Akira, Fujimori, Masahiro, and Yonemaru, Jun‐ichi

Subjects

CULTIVARS, ITALIAN ryegrass, GENE frequency, RYEGRASSES, GENETIC variation, LOLIUM perenne, PRINCIPAL components analysis

Abstract

Genetic relatedness and diversity of 62 cultivars and breeding lines of tetraploid Italian ryegrass (Lolium multiflorum Lam.; 39 accessions) and its interspecific hybrids, Festulolium (18 accessions), and hybrid ryegrass (Lolium × hybridum Hausskn.; 5 accessions), mainly from Japan, were revealed based on 2,824 genome‐wide allele frequencies obtained by the genotyping by random amplicon sequencing‐direct (GRAS‐Di) method using bulk genomic DNA testing. Genomic composition of each accession was estimated according to the occurrence of 77,373 unique GRAS‐Di sequences in the reference population consisting of diploid Italian ryegrass, meadow fescue (Festuca pratensis Huds.), and perennial ryegrass (Lolium perenne L.). The high correlation coefficient (0.98) between the fescue‐specific reads ratio and the previously obtained f‐ratio of genomic in situ hybridization in Festulolium cultivars suggests the usefulness of this simple method. Both cluster analysis based on Nei's standard genetic distance (DST) and principal component analysis (PCA) showed that groups were formed largely by species. However, the complex heritage of Lolium‐Festuca (Festulolium) materials could not be determined by species registration or breeding history alone. Some Festulolium accessions were closely related to Italian ryegrass, whereas some defined as Italian ryegrass may actually be interspecific hybrids. The high genetic diversity of Festulolium compared to Italian ryegrass and hybrid ryegrass revealed by PCA seems due to the wide range of fescue‐specific read ratios (0.04–33.0%). Tetraploid Italian ryegrass did not show clear structural differentiation, but some genetic relationships attributable to breeding history were demonstrated. Mean pairwise DST of tetraploid Italian ryegrass cultivars was significantly lower than that of diploids. Tetraploids and diploids could be separated by PCA plot. Although mean expected heterozygosities of tetraploid and diploid cultivars were not significantly different, the results suggest that the utilization of diploid genetic resources is effective in maintaining and increasing the genetic diversity of breeding populations of tetraploid Italian ryegrass. [ABSTRACT FROM AUTHOR]

Published

2023

19. Using phenomics to identify and integrate traits of interest for better-performing common beans: A validation study on an interspecific hybrid and its Acutifolii parents.

Author

Conejo Rodriguez, Diego Felipe, Urban, Milan Oldřich, Santaella, Marcela, Gereda, Javier Mauricio, Contreras, Aquiles Darghan, and Wenzl, Peter

Abstract

Introduction: Evaluations of interspecific hybrids are limited, as classical genebank accession descriptors are semi-subjective, have qualitative traits and show complications when evaluating intermediate accessions. However, descriptors can be quantified using recognized phenomic traits. This digitalization can identify phenomic traits which correspond to the percentage of parental descriptors remaining expressed/visible/measurable in the particular interspecific hybrid. In this study, a line of P. vulgaris, P. acutifolius and P. parvifolius accessions and their crosses were sown in the mesh house according to CIAT seed regeneration procedures. Methodology: Three accessions and one derived breeding line originating from their interspecific crosses were characterized and classified by selected phenomic descriptors using multivariate and machine learning techniques. The phenomic proportions of the interspecific hybrid (line INB 47) with respect to its three parent accessions were determined using a random forest and a respective confusion matrix. Results: The seed and pod morphometric traits, physiological behavior and yield performance were evaluated. In the classification of the accession, the phenomic descriptors with highest prediction force were Fm’, Fo’, Fs’, LTD, Chl, seed area, seed height, seed Major, seed MinFeret, seed Minor, pod AR, pod Feret, pod round, pod solidity, pod area, pod major, pod seed weight and pod weight. Physiological traits measured in the interspecific hybrid present 2.2% similarity with the P. acutifolius and 1% with the P. parvifolius accessions. In addition, in seed morphometric characteristics, the hybrid showed 4.5% similarity with the P. acutifolius accession. Conclusions: Here we were able to determine the phenomic proportions of individual parents in their interspecific hybrid accession. After some careful generalization the methodology can be used to: i) verify trait-of-interest transfer from P. acutifolius and P. parvifolius accessions into their hybrids; ii) confirm selected traits as “phenomic markers” which would allow conserving desired physiological traits of exotic parental accessions, without losing key seed characteristics from elite common bean accessions; and iii) propose a quantitative tool that helps genebank curators and breeders to make betterinformed decisions based on quantitative analysis. [ABSTRACT FROM AUTHOR]

Published

2022

20. Transcriptome analysis reveals fluid shear stress (FSS) and atherosclerosis pathway as a candidate molecular mechanism of short-term low salinity stress tolerance in abalone

Author

Grace Afumwaa Boamah, Zekun Huang, Yawei Shen, Yisha Lu, Zhixuan Wang, Ying Su, Changan Xu, Xuan Luo, Caihuan Ke, and Weiwei You

Subjects

Abalone, Low salinity, Interspecific hybrid, Transcriptomics, FSS pathway, Immunity, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Transcriptome sequencing is an effective tool to reveal the essential genes and pathways underlying countless biotic and abiotic stress adaptation mechanisms. Although severely challenged by diverse environmental conditions, the Pacific abalone Haliotis discus hannai remains a high-value aquaculture mollusk and a Chinese predominantly cultured abalone species. Salinity is one of such environmental factors whose fluctuation could significantly affect the abalone’s cellular and molecular immune responses and result in high mortality and reduced growth rate during prolonged exposure. Meanwhile, hybrids have shown superiority in tolerating diverse environmental stresses over their purebred counterparts and have gained admiration in the Chinese abalone aquaculture industry. The objective of this study was to investigate the molecular and cellular mechanisms of low salinity adaptation in abalone. Therefore, this study used transcriptome analysis of the gill tissues and flow cytometric analysis of hemolymph of H. discus hannai (DD) and interspecific hybrid H. discus hannai ♀ x H. fulgens ♂ (DF) during low salinity exposure. Also, the survival and growth rate of the species under various salinities were assessed. Results The transcriptome data revealed that the differentially expressed genes (DEGs) were significantly enriched on the fluid shear stress and atherosclerosis (FSS) pathway. Meanwhile, the expression profiles of some essential genes involved in this pathway suggest that abalone significantly up-regulated calmodulin-4 (CaM-4) and heat-shock protein90 (HSP90), and significantly down-regulated tumor necrosis factor (TNF), bone morphogenetic protein-4 (BMP-4), and nuclear factor kappa B (NF-kB). Also, the hybrid DF showed significantly higher and sustained expression of CaM and HSP90, significantly higher phagocytosis, significantly lower hemocyte mortality, and significantly higher survival at low salinity, suggesting a more active molecular and hemocyte-mediated immune response and a more efficient capacity to tolerate low salinity than DD. Conclusions Our study argues that the abalone CaM gene might be necessary to maintain ion equilibrium while HSP90 can offset the adverse changes caused by low salinity, thereby preventing damage to gill epithelial cells (ECs). The data reveal a potential molecular mechanism by which abalone responds to low salinity and confirms that hybridization could be a method for breeding more stress-resilient aquatic species.

Published

2022

21. Volatomic differences among Vitis amurensis cultivars and its hybrids with V. vinifera revealed the effects of genotype, region, and vintage on grape aroma.

Author

Li, Ming-Yu, Pei, Xuan-Xuan, Shi, Ning, Yang, Yi-Ming, Fan, Shu-Tian, Sun, Yan-Feng, Kong, Qing-Sen, Duan, Chang-Qing, Yu, Keji, and Wang, Jun

Subjects

*CULTIVARS, *GRAPE growing, *GENOTYPES, *GRAPES, *NATURAL immunity, *VITIS vinifera, *BERRIES

Abstract

[Display omitted] • V. amurensis grapes had higher levels of free C6/C9 compounds than V. vinifera. • V. amurensis grapes were richer in aroma compounds than the interspecific hybrids. • V. amurensis grapes grown in cool-climate years accumulated more C6/C9 compounds. • Relatively fertile soil favored the accumulation of aromas in V. amurensis grapes. Vitis amurensis grape, an East Asian Vitis species, has excellent cold and disease resistance and exhibits high winemaking potential. In this study, the aroma compounds in grapes from five V. amurensis cultivars ('Beiguohong', 'Beiguolan', 'Shuangfeng', 'Shuanghong', 'Shuangyou') and three interspecific hybrids ('Beibinghong', 'Xuelanhong', 'Zuoyouhong') from two regions (Zuojia and Ji'an, Jilin, China) were identified via HS-SPME-GC/MS. The results showed that V. amurensis grapes had a greater concentration of aroma compounds than the interspecific hybrid berries. 'Beibinghong' was relatively rich in terpenes, although their concentrations were all lower than the threshold. 'Shuangfeng' contained more concentrations of free C6/C9 compounds, alcohols, aromatics and aldehydes/ketones than the other cultivars. The aroma characteristics of 'Beiguolan' and 'Shuanghong' were relatively similar. The grapes from the lower temperature and more fertile soil of Zuojia contained more C6/C9 compounds, norisoprenoids and alcohols, while aromatics were more abundant in the grapes from Ji'an, which was warmer than the Zuojia region. Herbaceous, floral, fruity and sweet were the main aroma series of V. amurensis grapes. Our study could provide a reference for the development and utilization of V. amurensis grapes and lay a foundation for the development of wild grape cultivars and the production of wines with characteristic styles. [ABSTRACT FROM AUTHOR]

Published

2024

22. Assessment of Prunus Rootstock Accessions Using Chloroplast and Nuclear Microsatellites

Author

Chunxian Chen, Lorraine Rodriguez-Bonilla, and Thomas G. Beckman

Subjects

interspecific hybrid, maternal lineage, phylogenetic analysis, simple sequence repeat, Plant culture, SB1-1110

Abstract

A rootstock collection of Prunus species and hybrids is maintained at the U.S. Department of Agriculture stone fruit breeding program at Byron, GA. We genotyped 66 Prunus rootstock accessions and clones using chloroplast and nuclear microsatellites in this study. Chloroplast microsatellites revealed that the accessions belong to four previously defined maternal lineage groups (MLG-1 to -4) and five new ones (MLG-9 to -13). MLG-1 and -2 share the same chloroplast alleles of ‘Chinese Cling’ peach (Prunus persica) derived scions and American scions and rootstocks related to early European introductions, respectively. MLG-3 included ‘Guardian’ rootstock and its descendants. MLG-4 had a single genotype, ‘Okinawa’, that is the maternal parent of ‘Flordaking’. MLG-9 and MLG-11 to -13 included hybrids with different plums (Prunus salicina, Prunus cerasifera, Prunus tomentosa, or Prunus angustifolia) in their maternal parentage. MLG-10 included hybrids from almond (Prunus. dulcis) in the maternal parentage. The neighbor-joining phylogenetic tree based on nuclear microsatellite genotyping data showed several clusters. Cluster I included only one scion cultivar Elberta from MLG-1. Clusters II, III, and V contained peach accessions mostly in MLG-2. Clusters IV and VI included accessions mostly in MLG-3. Cluster VII included most accessions of plum-peach hybrid origin and those found within MLG-13. Cluster VIII was found to be mixed with different plum-peach hybrids and hybrids from other Prunus species, most of which were found in MLG-10, -11, and -12. Most accessions in Cluster IX were related to plums in MLG-11 and a few accessions in MLG-9.

Published

2022

23. Crossability analysis of cultivated rice (Oryza sativa) with O. rufipogon and O. longistaminata and F1-identification

Author

NEHA CHAKRAWARTI, RUPAM BORGOHAIN, RAJSHREE VERMA, and N SARMA BARUA

Subjects

Interspecific hybrid, Perennial rice, Pollen viability, Ratooning ability, Agriculture

Abstract

The research was conducted at Instructional cum Research (ICR) farm in Assam Agricultural University, Jorhat, Assam for the year 2019–21 with the objective to determine the crossability of wild rice species O. longistaminata and O. rufipogon with O. sativa and observe the inheritance of rhizome. In first year of experiment, varieties having good ratooning ability were identified. Out of them, five varieties namely Ranjit, Ranjit sub-1, IR-64, Binadhan-11 and Bahadur were crossed with both of the wild species. Crossablity of O. longistaminata with O. sativa ranged from 11.1% (Ranjit sub-1 × O. longistaminata) to 22.2% (Binadhan11 × O. longistaminata) while O. rufipogon with O. sativa ranged from 13.3% (Ranjit sub-1 × O. rufipogon) to 30% (Ranjit × O. rufipogon). All the hybrids except for IR64 × O. longistaminata were photoinsensitive as that of their female parent. Hybrids from O. sativa/O. longistaminata exhibited various distinguishing characters which can be used as morphological marker in order to identify true interspecific hybrids in further breeding programme. The pollen viability of these interspecific hybrids were found lower than both the parents. However, rhizome formation could not be observed in any hybrid.

Published

2023

24. Growth parameters of backcross-derived Elaeis oleifera (Kunth) Cortés from Taisha - Ecuador and their potential for plant breeding in oil palm

Author

Laura Mendoza, Julián Barba, and Gustavo Ligarreto

Subjects

elaeis spp., interspecific hybrid, pollen germination, Agriculture (General), S1-972

Abstract

The palm Elaeis oleifera from Taisha was first described in 1986, but remains a valuable genetic resource to be evaluated, as it may be important for obtaining high-yielding hybrid genotypes and good-quality oil. This research aimed to determine the attributes of Elaeisoleifera (O) Taisha, E. guineensis Jacq. (G), their hybrids (O × G) and backcrosses [(O × G) × G = Bc], regarding leaf, stipe and pollen parameters, to expand the potential knowledge toward the obtention of interspecific hybrids that improve the crop competitiveness and sustainability. Contrasts were shown between both genotypes. E. oleifera showed a foliar emissionof1.67 leaves per month, when compared to a mean value of 2.37 leaves per monthfor O × G, Bc and E. guineensis. The leaf area of the leaf number 17 was 5.55 m² for E. oleifera and 8.50 m² in the other materials. Additionally, E. oleifera reached a shorter height and lower number of leaflets for the leaf 17 and stipe growth, in comparison to the other genotypes that showed vegetative hybrid vigor. Regarding pollen germination, E. oleifera and E. guineensisshowed high percentages, whereas the hybrids obtained 14.26 % and Bc 62.47 %. Therefore, the introgression of genes from E. oleifera to E. guineensis for slow growth and smaller foliar area and from backcrosses for high pollen germination can be useful for selecting and obtaining high-yield improved hybrids and short and compact palms.

Published

2022

25. Using phenomics to identify and integrate traits of interest for better-performing common beans: A validation study on an interspecific hybrid and its Acutifolii parents

Author

Diego Felipe Conejo Rodriguez, Milan Oldřich Urban, Marcela Santaella, Javier Mauricio Gereda, Aquiles Darghan Contreras, and Peter Wenzl

Subjects

phenomic descriptors, phenomic proportions, interspecific hybrid, image analysis, machine learning, Plant culture, SB1-1110

Abstract

IntroductionEvaluations of interspecific hybrids are limited, as classical genebank accession descriptors are semi-subjective, have qualitative traits and show complications when evaluating intermediate accessions. However, descriptors can be quantified using recognized phenomic traits. This digitalization can identify phenomic traits which correspond to the percentage of parental descriptors remaining expressed/visible/measurable in the particular interspecific hybrid. In this study, a line of P. vulgaris, P. acutifolius and P. parvifolius accessions and their crosses were sown in the mesh house according to CIAT seed regeneration procedures.MethodologyThree accessions and one derived breeding line originating from their interspecific crosses were characterized and classified by selected phenomic descriptors using multivariate and machine learning techniques. The phenomic proportions of the interspecific hybrid (line INB 47) with respect to its three parent accessions were determined using a random forest and a respective confusion matrix.ResultsThe seed and pod morphometric traits, physiological behavior and yield performance were evaluated. In the classification of the accession, the phenomic descriptors with highest prediction force were Fm’, Fo’, Fs’, LTD, Chl, seed area, seed height, seed Major, seed MinFeret, seed Minor, pod AR, pod Feret, pod round, pod solidity, pod area, pod major, pod seed weight and pod weight. Physiological traits measured in the interspecific hybrid present 2.2% similarity with the P. acutifolius and 1% with the P. parvifolius accessions. In addition, in seed morphometric characteristics, the hybrid showed 4.5% similarity with the P. acutifolius accession.ConclusionsHere we were able to determine the phenomic proportions of individual parents in their interspecific hybrid accession. After some careful generalization the methodology can be used to: i) verify trait-of-interest transfer from P. acutifolius and P. parvifolius accessions into their hybrids; ii) confirm selected traits as “phenomic markers” which would allow conserving desired physiological traits of exotic parental accessions, without losing key seed characteristics from elite common bean accessions; and iii) propose a quantitative tool that helps genebank curators and breeders to make better-informed decisions based on quantitative analysis.

Published

2022

26. Philadelphus 'ORSTPHILx1' Swan Lake® Mockorange.

Author

Contreras, Ryan N.

Subjects

*ORNAMENTAL plants, *PLANT breeding, *FOLIAGE plants, *WOODY plants, *HORTICULTURE, *PRUNING

Abstract

The article discusses the value and challenges of mockorange shrubs, emphasizing their adaptability and fragrant flowers, despite criticism for their appearance. Topics include the interspecific hybrid 'ORSTPHILx1', the immersive experience of Swan LakeVR, and the breeding efforts to enhance traits beyond flowering, led by Ryan N. Contreras at Oregon State University.

Published

2024

27. 菜心和芥蓝种间杂交创制异源四倍体蔬菜种质.

Author

吕凤仙, 和江明, 李崇娟, 杨鼎, 胡靖锋, 杨红丽, 兰梅, 徐学忠, and 张丽琴

Subjects

COLE crops, CHROMOSOME analysis, GERMPLASM, EMBRYOLOGY, ZYGOTES, PLANT hybridization, ROOTING of plant cuttings

Abstract

Copyright of Acta Agriculturae Zhejiangensis is the property of Acta Agriculturae Zhejiangensis Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

28. Expression Patterns Divergence of Reciprocal F1 Hybrids Between Gossypium hirsutum and Gossypium barbadense Reveals Overdominance Mediating Interspecific Biomass Heterosis.

Author

Tengyu Li, Fuqiu Wang, Yasir, Muhammad, Kui Li, Yuan Qin, Jing Zheng, Kun Luo, Shouhong Zhu, Hua Zhang, Yurong Jiang, Yongshan Zhang, and Junkang Rong

Subjects

SEA Island cotton, HETEROSIS, COTTON, BIOMASS, PHOTOSYSTEMS, ADENOSINE triphosphate

Abstract

Hybrid breeding has provided an impetus to the process and achievement of a higher yield and quality of crops. Interspecific hybridization is critical for resolving parental genetic diversity bottleneck problems. The reciprocal interspecific hybrids and their parents (Gossypium hirsutum and Gossypium barbadense) have been applied in this study to elucidate the transcription regulatory mechanism of early biomass heterosis. Phenotypically, the seed biomass, plant height over parent heterosis, leaf area over parent heterosis, and fresh and dry biomass were found to be significantly higher in hybrids than in parents. Analysis of leaf areas revealed that the one-leaf stage exhibits the most significant performance in initial vegetative growth vigor and larger leaves in hybrids, increasing the synthesis of photosynthesis compounds and enhancing photosynthesis compound synthesis. Comparative transcriptome analysis showed that transgressive down-regulation (TDR) is the main gene expression pattern in the hybrids (G. hirsutum G. barbadense, HB), and it was found that the genes of photosystem I and Adenosine triphosphate (ATP)-binding may promote early growth vigor. Transgressive up-regulation (TUR) is the major primary gene expression pattern in the hybrids (G. barbadense G. hirsutum, BH), and photosystem II-related genes mediated the performance of early biomass heterosis. The above results demonstrated that overdominance mediates biomass heterosis in interspecific hybrid cotton and the supervisory mechanism divergence of hybrids with different females. Photosynthesis and other metabolic process are jointly involved in controlling early biomass heterosis in interspecific hybrid cotton. The expression pattern data of transcriptome sequencing were supported using the qRT-PCR analysis. Our findings could be useful in theoretical and practical studies of early interspecific biomass heterosis, and the results provide potential resources for the theoretical and applied research on early interspecific biomass heterosis. [ABSTRACT FROM AUTHOR]

Published

2022

29. Generating Novel Aroma Phenotypes Using Commercial Wine Samples to Characterize an F1 Population.

Author

Awale, Mani, Liu, Connie, and Kwasniewski, Misha T.

Subjects

WINE flavor & odor, VITIS vinifera, PHENOTYPES, WINES, CABERNET wines, ABIOTIC stress, SAUVIGNON blanc, GRAPES

Abstract

Due to their disease tolerance and cold hardy nature, interspecific hybrid grapes are widely grown in the Midwestern and Northeastern United States, with additional interest worldwide in the face of increased abiotic and biotic stresses from climate change. However, the aroma profile of these hybrids is unique and generally less popular in comparison with Vitis vinifera grapes. One of the challenges in any phenotyping project is first defining the traits of interest. As wine quality was our ultimate metric of interest, the aroma profile of commercial wines produced from the parents of a breeding population (Vitis aestivalis derived 'Norton' x V. vinifera. 'Cabernet Sauvignon') was first assessed for traits of interest. We investigated 11 commercial wines each of Norton, a popular hybrid in Missouri and Cabernet Sauvignon (Cab) for their volatile profiles using the more inclusive metabolomics-based workflow. We then analyzed 21 Norton and 21 Cab grapes from different sites and vintages for the free and bound volatile compounds using HS-SPME-GCMS to validate the differences in wine. The GCMS data was processed using XCMS software to find features that were different between the two cultivars. The two cultivars were found to have differences in their volatile profiles, with 304 features different for wine volatiles, 418 features different for free volatiles, and 302 features different for bound volatiles at 0.05 significance level and with at least a 1.5-fold change between the two cultivars. Those features were used to identify several odor-active compounds in both grapes and wines, including β-damascenone, β-ionone, eugenol, 1,1,6-trimethyl-1,2-dihydronaphthalene (TDN), and methyl salicylate. Some of the identified compounds were higher in Norton than Cab; however, several features were higher in Cab. Using the identified aroma compounds as markers, we phenotyped an F1 population of Norton and Cab. The F1 population was found to be segregating for many aroma compounds with some genotypes demonstrating an even higher concentration of aroma volatiles than either of the parents. Ultimately, using commercially available samples paired with untargeted analysis proved to be an efficient way to determine phenotypes of interest for further analysis and may offer an easy way to choose potential parents with desired traits for breeding. [ABSTRACT FROM AUTHOR]

Published

2022

30. 花生二倍体野生种Arachis duranensis 和A. ipaensis 新种间 杂种的创制及鉴定.

Author

杜培, 王倩, 刘华, 付留洋, 秦利, 徐静, 张忠信, 李晨玉, 董文召, 黄冰艳, and 张新友

Subjects

NUCLEIC acid probes, PALYNOLOGY, TISSUE culture, LEAF area, ARACHIS, PLANT hybridization, PLANT fertility

Abstract

Copyright of Chinese Journal of Oil Crop Sciences is the property of Oil Crops Research Institute of Chinese Academy of Agricultural Sciences and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

31. Generating Novel Aroma Phenotypes Using Commercial Wine Samples to Characterize an F1 Population

Author

Mani Awale, Connie Liu, and Misha T. Kwasniewski

Subjects

aroma compounds, interspecific hybrid, F1 population, untargeted metabolomics, GC-MS, phenotyping, Plant culture, SB1-1110

Abstract

Due to their disease tolerance and cold hardy nature, interspecific hybrid grapes are widely grown in the Midwestern and Northeastern United States, with additional interest worldwide in the face of increased abiotic and biotic stresses from climate change. However, the aroma profile of these hybrids is unique and generally less popular in comparison with Vitis vinifera grapes. One of the challenges in any phenotyping project is first defining the traits of interest. As wine quality was our ultimate metric of interest, the aroma profile of commercial wines produced from the parents of a breeding population (Vitis aestivalis derived ‘Norton’ x V. vinifera. ‘Cabernet Sauvignon’) was first assessed for traits of interest. We investigated 11 commercial wines each of Norton, a popular hybrid in Missouri and Cabernet Sauvignon (Cab) for their volatile profiles using the more inclusive metabolomics-based workflow. We then analyzed 21 Norton and 21 Cab grapes from different sites and vintages for the free and bound volatile compounds using HS-SPME-GCMS to validate the differences in wine. The GCMS data was processed using XCMS software to find features that were different between the two cultivars. The two cultivars were found to have differences in their volatile profiles, with 304 features different for wine volatiles, 418 features different for free volatiles, and 302 features different for bound volatiles at 0.05 significance level and with at least a 1.5-fold change between the two cultivars. Those features were used to identify several odor-active compounds in both grapes and wines, including β-damascenone, β-ionone, eugenol, 1,1,6-trimethyl-1,2-dihydronaphthalene (TDN), and methyl salicylate. Some of the identified compounds were higher in Norton than Cab; however, several features were higher in Cab. Using the identified aroma compounds as markers, we phenotyped an F1 population of Norton and Cab. The F1 population was found to be segregating for many aroma compounds with some genotypes demonstrating an even higher concentration of aroma volatiles than either of the parents. Ultimately, using commercially available samples paired with untargeted analysis proved to be an efficient way to determine phenotypes of interest for further analysis and may offer an easy way to choose potential parents with desired traits for breeding.

Published

2022

32. Meiotic behaviour and pollen fertility of F1, F2 and BC1 progenies of Iris dichotoma and I. domestica

Author

Xu Wenji, Luo Gangjun, Lian Xiaoyin, Yu Fengyang, Zheng Yang, Lei Jiajun, and Bi Xiaoying

Subjects

2n gametes, abnormal meiosis, interspecific hybrid, iris, male, Plant culture, SB1-1110

Abstract

Pollen characteristics are very important for Iris interspecific hybridisation. In this study, the pollen viability and male meiosis were studied in yellow-flowered Iris dichotoma (Y2), I. domestica (S3) and their hybrids F1, F2 and BC1 (BC1-Y and BC1-S). The BC1-Y hybrids showed higher pollen viability than that of F1, F2 and BC1-S hybrids, which were between I. dichotoma (26.1%) and I. domestica (35.1%). Two sterile hybrids, F2-1 and BC1-S-1, exhibited more meiotic abnormalities (57.3% and 58.7%) than other individuals. During the first meiotic division, a diffuse diplotene stage was observed for the first time in the genus Iris. The meiotic abnormalities included non-congressed chromosomes, chromosome bridges, lagging chromosomes, unequal division, abnormally oriented spindle fibres, nonsynchronous division and polyad, and resulted in reduced pollen fertility. The relatively high frequency of 2n pollen grains was found in hybrids of BC1-Y-2, BC1-Y-1, BC1-S-2, BC1-S-3 and BC1-S-4. Our research provides a new resource for meiotic behaviour and pollen fertility of the genus Iris.

Published

2021

33. Transcriptome analysis reveals fluid shear stress (FSS) and atherosclerosis pathway as a candidate molecular mechanism of short-term low salinity stress tolerance in abalone.

Author

Boamah, Grace Afumwaa, Huang, Zekun, Shen, Yawei, Lu, Yisha, Wang, Zhixuan, Su, Ying, Xu, Changan, Luo, Xuan, Ke, Caihuan, and You, Weiwei

Subjects

*CALMODULIN, *SHEARING force, *NF-kappa B, *ABALONES, *BONE morphogenetic protein receptors, *SALINITY, *TUMOR necrosis factors

Abstract

Background: Transcriptome sequencing is an effective tool to reveal the essential genes and pathways underlying countless biotic and abiotic stress adaptation mechanisms. Although severely challenged by diverse environmental conditions, the Pacific abalone Haliotis discus hannai remains a high-value aquaculture mollusk and a Chinese predominantly cultured abalone species. Salinity is one of such environmental factors whose fluctuation could significantly affect the abalone's cellular and molecular immune responses and result in high mortality and reduced growth rate during prolonged exposure. Meanwhile, hybrids have shown superiority in tolerating diverse environmental stresses over their purebred counterparts and have gained admiration in the Chinese abalone aquaculture industry. The objective of this study was to investigate the molecular and cellular mechanisms of low salinity adaptation in abalone. Therefore, this study used transcriptome analysis of the gill tissues and flow cytometric analysis of hemolymph of H. discus hannai (DD) and interspecific hybrid H. discus hannai ♀ x H. fulgens ♂ (DF) during low salinity exposure. Also, the survival and growth rate of the species under various salinities were assessed. Results: The transcriptome data revealed that the differentially expressed genes (DEGs) were significantly enriched on the fluid shear stress and atherosclerosis (FSS) pathway. Meanwhile, the expression profiles of some essential genes involved in this pathway suggest that abalone significantly up-regulated calmodulin-4 (CaM-4) and heat-shock protein90 (HSP90), and significantly down-regulated tumor necrosis factor (TNF), bone morphogenetic protein-4 (BMP-4), and nuclear factor kappa B (NF-kB). Also, the hybrid DF showed significantly higher and sustained expression of CaM and HSP90, significantly higher phagocytosis, significantly lower hemocyte mortality, and significantly higher survival at low salinity, suggesting a more active molecular and hemocyte-mediated immune response and a more efficient capacity to tolerate low salinity than DD. Conclusions: Our study argues that the abalone CaM gene might be necessary to maintain ion equilibrium while HSP90 can offset the adverse changes caused by low salinity, thereby preventing damage to gill epithelial cells (ECs). The data reveal a potential molecular mechanism by which abalone responds to low salinity and confirms that hybridization could be a method for breeding more stress-resilient aquatic species. [ABSTRACT FROM AUTHOR]

Published

2022

34. Behavior of chromosomes from the Mexican wild diploid species Solanum pinnatisectum in the interspecific hybrid with cultivated potato and its backcross progenies.

Author

Kikuchi, Shinji, Ishii, Hikari, Hosaka, Kazuyoshi, and Sanetomo, Rena

Subjects

*CHROMOSOMES, *SOLANUM, *CHROMOSOME analysis, *KARYOTYPES, *SPECIES, *IN situ hybridization, *POLYPLOIDY, *INTROGRESSION (Genetics)

Abstract

The genomic relationship between Mexican wild diploid species and South American wild and cultivated potato species is ambiguous because these species are reproductively isolated from each other. Previously, we successfully obtained triploid interspecific hybrids between a chromosome-doubled clone of the Mexican wild diploid species Solanum pinnatisectum (2n = 2x = 24) and a cultivated diploid species (A-genome species); these hybrids were then chromosome-doubled and backcrossed to tetraploid potatoes. In this study, we conducted a genomic in situ hybridization (GISH) analysis to reveal the chromosome behaviors of the S. pinnatisectum chromosomes in the hybrid progenies. Due to the high specificity of the A-genome probe for A-genome chromosomes, the chromosomes of the two species were differentially painted. In the triploid hybrid, bivalents with two S. pinnatisectum chromosomes and univalents with cultivated species chromosomes were exclusively observed at meiosis. However, in the hexaploid hybrid, 20% of the S. pinnatisectum chromosomes showed allosyndetic pairing with A-genome chromosomes and formed bivalents and multivalents. From the BC1 to BC4 plants, the number of S. pinnatisectum chromosomes was drastically reduced from 24 to an average of 0.9, and translocation chromosomes were observed. Therefore, we conclude that the S. pinnatisectum germplasm was actually introgressed by recombination into the S. tuberosum genome, which was demonstrated by the presence of an S. pinnatisectum-derived late blight resistance gene (Rpi-blb3) in BC4 plants whose chromosomes were all painted with the A-genome probe. [ABSTRACT FROM AUTHOR]

Published

2022

35. Inheritance of Solanum chloroplast genomic DNA in interspecific hybrids

Author

Dandan Li, Guiyun Gan, Weiliu Li, Wenjia Li, Yaqin Jiang, Xuyu Liang, Ning Yu, Riyuan Chen, and Yikui Wang

Subjects

solanum, chloroplast genome, interspecific hybrid, inheritance, maternal, Genetics, QH426-470

Abstract

The chloroplast genomic information was obtained from three wild Solanum and four hybrids by chloroplast genome sequencing. The chloroplast genomes of the seven samples comprise of a circular structure and sizes from 155,581 to 155,612 bp and composed of 130 genes. The genome structures of the two hybrids were identical, while the other two hybrids showed 2 bp differences in the LSC when compared with their maternal parent. The total sites of SNP and InDel were 39–344 and 54–90, respectively. With the exception of one hybrid with two additional sites, the other hybrids were identical to their maternal.

Published

2021

36. Fluctuations in the heart rate of abalone in response to low salinity stress.

Author

Boamah, Grace Afumwaa, Yu, Feng, Shen, Yawei, You, Weiwei, Xu, Changan, Luo, Xuan, and Ke, Caihuan

Subjects

*HEART beat, *SALINITY, *HEART rate monitors, *HEART rate monitoring, *AQUATIC animals

Abstract

The tremendous expansion of Chinese abalone production has not been without challenges such as low salinity stress, which may occur during severe summer rainstorms and typhoon events. Interspecific hybrids have, however, been of great use to the aquaculture industry in withstanding environmental stresses. This study adopted the non-invasive method of measuring heart rate to monitor the cardiac performance of the Pacific abalone and two of its interspecific hybrids during the incidence of continuous salinity decrease. The results showed that low salinity significantly influences the heart rate of abalone. Fluctuation in the abalone's heartbeat suggests a pattern with three phases and two breakpoints of salinity (BOS1 and BOS2). BOS1 represents an isosmotic point, and BOS2 represents lethal salinity. We argue that relatively lower BOS suggests better tolerance to low salinity, and long-term exposure to salinities around BOS2 could be detrimental to all three species. The hybrid H. discus hannai ♀ x H. fulgens ♂ (DF) recorded the lowest BOS1 and BOS2, which was also significantly different (P = 0.01) from DD at BOS1, suggesting a better tolerance potential for low salinities than the other species. Altogether, our data establish species-specific BOS and reveal the cardiac mechanism by which abalone responds to low salinity. The results confirm that the non-invasive heart rate detection method could likewise be adopted to define critical salinities for abalone, and hybridization could be a potential method to breed the more stress-resilient aquatic animals. [ABSTRACT FROM AUTHOR]

Published

2022

37. Growth parameters of backcross-derived Elaeis oleifera (Kunth) Cortés from Taisha - Ecuador and their potential for plant breeding in oil palm.

Author

Mendoza, Laura, Barba, Julián, and Ligarreto, Gustavo

Subjects

PLANT breeding, VEGETABLE oils, OIL palm, MORINGA oleifera, HETEROSIS, PALMS, LEAF area, GERMPLASM, POLLEN

Abstract

Copyright of Agricultural Research in the Tropics / Pesquisa Agropecuária Tropical is the property of Pesquisa Agropecuaria Tropical and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

38. Identification of the tetrad-sterility-causing Solanum stoloniferum Schltdl. & Bouché cytoplasm in interspecific hybrids with S. tuberosum L.

Author

Sanetomo, Rena and Nashiki, Akito

Abstract

Tetrad sterility, in which only clumps of four premature pollen grains are released from anthers, has been observed in some modern potato cultivars. It is a form of cytoplasmic male sterility caused by the cytoplasm derived from the Mexican tetraploid species Solanum stoloniferum Schltdl. & Bouché., an important source of resistance to Potato virus Y in potato breeding. However, since S. stoloniferum is highly polymorphic, the source of tetrad-sterility-causing cytoplasm is unknown among diverse S. stoloniferum accessions. In this study, we directly crossed 24 S. stoloniferum accessions with pollen from 4x S. tuberosum and obtained 39 hybrids from 12 accessions. Nineteen hybrids from six accessions showed tetrad sterility, with either D/γ- or W/γ-type cytoplasm, and were triploid, tetraploid, or hexaploid. The W/γ-type cytoplasm was not necessarily associated with tetrad sterility. Sequence comparisons of 17 mitochondrial genes and their intergenic regions revealed a length polymorphism in the intergenic region between rpl5 and rps10, in which an amplified band of 859 bp was associated with tetrad sterility. This specific cytoplasm causing tetrad sterility is named TSCsto. The 859-bp band will be a useful diagnostic marker for identifying TSCsto in potato breeding. [ABSTRACT FROM AUTHOR]

Published

2021

39. Moth versus fly: a preliminary study of the pollination mode of two species of endemic Asteraceae from St Helena (Commidendrum robustum and C. rugosum) and its conservation implications

Author

Mikko Paajanen and Quentin Cronk

Subjects

endemic plants, conservation, interspecific hybrid, Biology (General), QH301-705.5

Abstract

Commidendrum robustum (Roxb.) DC. (St Helena gumwood) and C. rugosum (Dryand.) DC. (St Helena scrubwood) are ecologically important, endemic woody Asteraceae from the isolated South Atlantic island of St Helena. Once very abundant, they now exist in sparse fragmented populations due to 500 years of environmental destruction. They are sister taxa that evolved on the island and are reported to hybridise. Commidendrum rugosum has a saucer-like erect capitulum, whereas C. robustum has a somewhat globular hanging capitulum. Using daytime timelapse photography to follow capitula through their life cycle, we found that C. rugosum appears to be myophilous, visited largely by flies (including the endemic syrphid, Sphaerophoria beattiei Doesburg & Doesburg) and occasionally by Lepidoptera. Commidendrum robustum, on the other hand, although visited by flies, strongly attracts moths (especially noted at the Millennium Forest site). Our data suggest that moth visits may reduce visits from flies due to the sensitivity of flies to interference by other insects. We conclude that C. robustum may have a mixed syndrome of myophily/phalaenophily and that there is apparently some divergence of the pollination niche between the two species. Its potential in attracting moths, coupled with its former abundance, suggests that it may have been a major food source for adults of the numerous endemic moths. Pollinator activity was measured by insect visitation rates (mean visits per capitulum per day, V) and insect residence time (mean pollinator kiloseconds per capitulum per day, R). Both are higher for C. robustum (C. rugosum, V = 16.4, R = 3.101; C. robustum, V = 34.0, R = 8.274), reflecting the abundance of moths on the capitula at the Millennium Forest site. The conservation implications of the pollination mode are that: (1) there is considerable pollinator activity on the capitula and pollination is not currently a limiting factor for plant reproduction; (2) gene exchange between geographically-isolated populations of C. rugosum is likely to be minimal due to the apparent reliance of the species for pollination on small flies (especially Sphaerophoria beattiei), which are believed to be not effective as pollinators over long distances (> 1 km). A possible exception is the strong-flying drone-fly, Eristalis tenax Linn. which, although not as abundant as Sphaerophoria, does visit the flowers; (3) there is considerable overlap between the two species in flower visitors and interspecific pollen transfer is possible where the two species grow intermixed (which has potential positive and negative implications for species survival).

Published

2020

40. Genetic Potential of Agronomic Traits and Seed Physicochemical Properties of Novel Jatropha Lines Developed from Complex Interspecific Hybridization

Author

Narathid Muakrong and Peerasak Srinives

Subjects

genetic potential, jatropha, interspecific hybrid, physicochemical, Agriculture, Plant culture, SB1-1110

Abstract

Fifteen jatropha lines were obtained from complex crossing between progenies derived from interspecific hybridization of Jatropha curcas and J. integerrima. They were evaluated for variability and association in yield, yield components, oil content, fatty acid composition, phorbol esters content, and growth characters. The major fatty acids in seed were oleic and linoleic acids, with a negative correlation among them. Seed yield showed a positive correlation with number of fruits per inflorescence and seeds per fruit, 100 seed weight and canopy size. A path coefficient analysis showed that number of fruits per inflorescence and canopy width had high positive direct relationship with seed yield per plant. Most characters showed high broad-sense heritability. Clustering by traits classified the breeding lines into five groups with a large distance between groups. The members in each group comprised lines of the same or similar pedigrees. Cluster I was the high seed yield group comprising two accessions (KUJL23 and KUJL18). Clustering based on principle components classified them into four groups. The lines in cluster II and III from cluster analysis were included in one group, while members of the other groups were the same in both clustering methods.

Published

2020

41. Evaluating the Effects of Early Pruning, Leaf Removal, and Shoot Thinning on ‘MidSouth’ Grapes over Two Consecutive Vintages in South Mississippi

Author

Haley N. Williams, Eric T. Stafne, Yan Zhang, and Sam K.C. Chang

Subjects

canopy management, grape composition, grape ripening, humid environment, interspecific hybrid, red wine, Agriculture

Abstract

Yield components and fruit composition of ‘MidSouth’, an interspecific hybrid bunch grape (Vitis spp.) with relatively low total soluble solids and high titratable acidity, was evaluated in south Mississippi to determine if treatments consisting of early pruning, early pruning with pre-bloom leaf removal, normal pruning with post-fruit set leaf removal, or normal pruning in one study, or post-fruit set leaf removal, post-fruit set shoot thinning, or neither leaf removal nor shoot thinning in a second study could improve these qualities. Early pruning with leaf removal reduced berries per cluster, cluster weights, yields, and Ravaz index. Early pruning treatments had inconsistent results from year to year, and normal pruning treatments were not often significantly different. Shoot thinned vines had lower yields and Ravaz index and higher total soluble solids. Second study leaf removal vines had lower juice pH in 2020 and lower yield per vine in 2021. These findings show that ‘MidSouth’ can be altered by these practices, but they did not appear to sufficiently alter ‘MidSouth’ quality. Thus, early pruning with or without leaf removal, normal pruning with leaf removal, and shoot thinning are not recommended for ‘MidSouth’ in south Mississippi, and normal pruning without these practices should be continued.

Published

2023

42. Impacts of Vaccinium arboreum Rootstocks on Vegetative Growth and Yield in Two Southern Highbush Blueberry Cultivars

Author

Rebecca L. Darnell, Jeffrey G. Williamson, Deanna C. Bayo, and Philip F. Harmon

Subjects

bacterial leaf scorch, fruit quality, grafting, sparkleberry, vaccinium corymbosum, interspecific hybrid, Plant culture, SB1-1110

Abstract

Abstract Vaccinium arboreum Marsh is a small tree adapted to low-organic matter soils and is one of the few ericaceous species that tolerates soil pH greater than 6.0. It has a deep root system and is more drought tolerant than cultivated blueberry. The use of V. arboreum as a rootstock for commercial blueberry production has been studied previously in young blueberry plantings. The objective of the current study was to expand on earlier work and evaluate growth, productivity, and tolerance to bacterial leaf scorch (Xylella fastidiosa) in established plantings of own-rooted vs. grafted southern highbush blueberry (SHB). Two field plantings of grafted and own-rooted ‘Meadowlark’ and ‘Farthing’ SHB were established in May 2011: one at the University of Florida–Institute of Food and Agricultural Sciences (UF-IFAS) Plant Science Research and Education Unit in Citra, FL, and the other at a commercial blueberry farm in Archer, FL. At both sites, four rootstock–scion combinations were grown in either pine bark-amended or nonamended soil. Canopy volume was greater in grafted compared with own-rooted ‘Meadowlark’ at both locations throughout the 4 years of the study (2015–18), whereas canopy volume in ‘Farthing’ was not consistently different. For both cultivars and both locations, canopy volume was greater on amended compared with nonamended soil. Although canopy growth was not consistently increased in the grafted compared with own-rooted plants, yield was greater in grafted plants of both cultivars at both locations. Cumulative yield over the 4 years was similar between grafted plants grown on both amended and nonamended soil, and was significantly greater than yield of own-rooted plants on nonamended soil, suggesting the use of this rootstock may decrease the requirement for pine bark amendment. In general, grafted plants produced larger berries, with no negative impacts on fruit soluble solids, titratable acidity, or firmness. ‘Meadowlark’—an SHB cultivar that exhibits high sensitivity to bacterial leaf scorch—displayed decreased development of bacterial leaf scorch symptoms when grafted onto V. arboreum compared with own-rooted plants. These results indicate the potential benefits of grafting SHB onto V. arboreum rootstock, particularly under marginal soil conditions. However, a complete economic analysis that also takes into account any differences in longevity between the two systems must be done to determine whether the benefits of using grafting are feasible financially for the grower.

Published

2019

43. Effect of newly developed interspecific hybrid rootstocks on mineral nutrient composition and fruit quality in tomato (Solanum lycopersicum L.).

Author

Kabas, A. and Celik, I.

Subjects

TOMATOES, FRUIT composition, FRUIT quality, ROOTSTOCKS, DISEASE resistance of plants

Abstract

Tomato (Solanum lycopersicum L.) is one of the important vegetables in the world due to large production area and consumer interest. Biotic and abiotic stresses have negative effect on tomato production. Utilisation of rootstocks conferring resistance to biotic stresses can be considered as the most effective and environment friendly solution in tomato production to overcome this problem. Although wild tomato species is a good rootstock candidate due to its resistance to multiple plant diseases, effects of wild tomato species as rootstock on mineral nutrient composition and fruit quality are not clear. In the present study, effects of interspecific hybrids derived from two wild tomato species (Solanum habrochaites and Solanum penellii) as rootstock on tomato fruit mineral nutrient composition (phosphor (P), potassium (K), calcium (Ca), magnesium (Mg), iron (Fe), zinc (Zn), manganese (Mn), and copper (Cu)) and fruit quality traits (soluble solids content (SSC), pH, percent titratable acidity (TA), and lycopene content) were evaluated. In the study, Amaron, Armstrong, and Arazi commercial rootstocks were used as control and AK0004 F1 (candidate tomato hybrid) was used as a source of scion. As result, only lycopene content was affected by different rootstocks. S. penellii was found to be with more potential for lycopene content. For mineral nutrient composition, all hybrids and controls had similar contents of potassium, phosphor, calcium, and magnesium. Manganese and copper contents decreased in all plants. S. habrochaites had more potential regarding nitrogen, iron, and zinc contens than S. penellii. This is the first study to evaluate two interspecific hybrids derived from S. habrochaites and S. penellii, and the results might be useful to understand effects of rootstocks derived from wild tomato species on mineral nutrient content and fruit quality. [ABSTRACT FROM AUTHOR]

Published

2021

44. Hybrids of the Siberian Sturgeon

Author

Chebanov, Mikhail, Podushka, Sergei, Rachek, Eugeny, Amvrosov, Dmitry, Merkulov, Yan, Williot, Patrick, editor, Nonnotte, Guy, editor, and Chebanov, Mikhail, editor

Published

2018

45. Heterosis studies in interspecific cotton hybrids (Gossypium hirsutum L. × Gossypium barbadense L.) under irrigated condition

Author

Malathi, S., Patil, Rajesh S., and Saritha, H. S.

Published

2019

46. Combining the Sclerotinia stem rot disease resistance trait in interspecific hybrids of Brassica napus and Brassica carinata

Author

Gupta, N.C., Gupta, R.K., Rao, M., and Kumar, A.

Published

2019

47. Character association and path analysis for cane yield and its components in interspecific hybrids of Saccharum spp.

Author

Karpagam, E. and Alarmelu, S.

Published

2019

48. Meiotic behaviour and pollen fertility of F1, F2 and BC1 progenies of Iris dichotoma and I. domestica.

Author

Xu, Wenji, Luo, Gangjun, Lian, Xiaoyin, Yu, Fengyang, Zheng, Yang, Lei, Jiajun, and Bi, Xiaoying

Subjects

*POLLEN, *FERTILITY, *POLLEN viability, *PLANT hybridization, *PLANT fertility, *MEIOSIS, *CHROMOSOMES

Abstract

Pollen characteristics are very important for Iris interspecific hybridisation. In this study, the pollen viability and male meiosis were studied in yellow-flowered Iris dichotoma (Y2), I. domestica (S3) and their hybrids F1, F2 and BC1 (BC1-Y and BC1-S). The BC1-Y hybrids showed higher pollen viability than that of F1, F2 and BC1-S hybrids, which were between I. dichotoma (26.1%) and I. domestica (35.1%). Two sterile hybrids, F2-1 and BC1-S-1, exhibited more meiotic abnormalities (57.3% and 58.7%) than other individuals. During the first meiotic division, a diffuse diplotene stage was observed for the first time in the genus Iris. The meiotic abnormalities included non-congressed chromosomes, chromosome bridges, lagging chromosomes, unequal division, abnormally oriented spindle fibres, nonsynchronous division and polyad, and resulted in reduced pollen fertility. The relatively high frequency of 2n pollen grains was found in hybrids of BC1-Y-2, BC1-Y-1, BC1-S-2, BC1-S-3 and BC1-S-4. Our research provides a new resource for meiotic behaviour and pollen fertility of the genus Iris. [ABSTRACT FROM AUTHOR]

Published

2021

49. Heterosis studies in interspecific cotton hybrids (Gossypium hirsutum L.  Gossypium barbadense L.) under irrigated condition

Author

S. Malathi, Rajesh S. Patil and, and H. S. Saritha

Subjects

Heterosis, Lines, Testers, Interspecific hybrid, Line × Tester, Plant culture, SB1-1110

Abstract

The present study was undertaken to assess the extent of heterosis for seed cotton yield and its attributing traits in 24 interspecific hybrids of cotton developed by crossing 8 lines with 3 testers in line × tester mating design during kharif, 2017- 18 at Agricultural Research Station Dharwad Farm. Significant heterosis was observed for the characters under study indicating the presence of genetic diversity among the parental lines. Except for number of sympodia per plant and boll weight, the mean sum of squares of parents vs crosses was significant for all the characters indicating presence of heterosis for these traits. None of the crosses was superior for all the traits studied. However, the cross CPD-462 x SBYF-425 was the best as it had the highest mean performance for economically important characters. Majority of the crosses exhibited significantly positive mid parent, better parent heterosis for all important yield contributing characters except ginning outturn. Most of the hybrids expressed significant standard heterosis for all the characters except boll weight and ginning outturn over the checks.

Published

2019

50. Development and characterisation of interspecific hybrid lines with genome-wide introgressions from Triticum timopheevii in a hexaploid wheat background

Author

Urmila Devi, Surbhi Grewal, Cai-yun Yang, Stella Hubbart-Edwards, Duncan Scholefield, Stephen Ashling, Amanda Burridge, Ian P King, and Julie King

Subjects

Wheat, Triticum timopheevii, Introgression, Interspecific hybrid, SNP, Genetic mapping, Botany, QK1-989

Abstract

Abstract Background Triticum timopheevii (2n = 4x = 28; AtAtGG), is an important source for new genetic variation for wheat improvement with genes for potential disease resistance and salt tolerance. By generating a range of interspecific hybrid lines, T. timopheevii can contribute to wheat’s narrow gene-pool and be practically utilised in wheat breeding programmes. Previous studies that have generated such introgression lines between wheat and its wild relatives have been unable to use high-throughput methods to detect the presence of wild relative segments in such lines. Results A whole genome introgression approach, exploiting homoeologous recombination in the absence of the Ph1 locus, has resulted in the transfer of different chromosome segments from both the At and G genomes of T. timopheevii into wheat. These introgressions have been detected and characterised using single nucleotide polymorphism (SNP) markers present on a high-throughput Axiom® Genotyping Array. The analysis of these interspecific hybrid lines has resulted in the detection of 276 putative unique introgressions from T. timopheevii, thereby allowing the generation of a genetic map of T. timopheevii containing 1582 SNP markers, spread across 14 linkage groups representing each of the seven chromosomes of the At and G genomes of T. timopheevii. The genotyping of the hybrid lines was validated through fluorescence in situ hybridisation (FISH). Comparative analysis of the genetic map of T. timopheevii and the physical map of the hexaploid wheat genome showed that synteny between the two species is highly conserved at the macro-level and confirmed the presence of inter- and intra-genomic translocations within the At and G genomes of T. timopheevii that have been previously only detected through cytological techniques. Conclusions In this work, we report a set of SNP markers present on a high-throughput genotyping array, able to detect the presence of T. timopheevii in a hexaploid wheat background making it a potentially valuable tool for marker assisted selection (MAS) in wheat pre-breeding programs. These valuable resources of high-density molecular markers and wheat-T. timopheevii hybrid lines will greatly enhance the work being undertaken for wheat improvement through wild relative introgressions.

Published

2019