Polyploidy of Pollen and Fruit Tissue, and Utilization for Triploid Breeding in 2x-4x-4x Ploidy Chimera Obtained by Colchicine Treatment of Citrus

Triploids generally provide an advantage in vegetative growth in forest trees. However, the technique of triploid breeding is still an open field in the Eucalyptus tree species. This study aims to explore the colchicine treatment technique for megaspore chromosome doubling to establish triploids in this tree species. Cytological observation on microsporogenesis and megasporogenesis was carried out to guide megaspore chromosome doubling induced by colchicine treatment. Ploidy level in progenies was detected by flow cytometry and somatic chromosome counting. A relationship between microsporogenesis and megasporogenesis was established to guide the colchicine treatment. Seven triploids were obtained in the progenies, and the highest efficiency of triploid production was 6.25% when the flower buds underwent a 0.25% colchicine solution treatment for 6 h using an aspiration method seven days after the first observation of leptotene during microsporogenesis on the floral branch. Cytological analysis showed that the megasporocyte from leptotene to diakinesis may be the optimal period for megaspore chromosome doubling by colchicine treatment. Plant height, ground diameter, leaf area, and the photosynthetic parameter of triploid eucalypt were significantly higher than those of the diploid plant at 6 months old. Hybridization with 2n megaspores induced by colchicine treatment is an effective way for Eucalyptus triploid breeding. These results should accelerate the development of advanced germplasms in this tree species.

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Physiological and anatomical changes in Thai rice landrance (Oryza sativa L.) cv Pakaumpuel after colchicine treatment

Pakistan Journal of Botany ◽

10.30848/pjb2020-5(24) ◽

2020 ◽

Vol 52 (5) ◽

Author(s):

Worasitikulya Taratima ◽

Pradub Reanprayoon ◽

Sayam Raso ◽

Mallika Chantarangsee ◽

Pitakpong Maneerattanarungroj

Keyword(s):

Oryza Sativa ◽

Oryza Sativa L ◽

Colchicine Treatment ◽

Anatomical Changes

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Spectrochemical analysis of fruit tissue for lead

10.31274/rtd-180813-14208 ◽

1944 ◽

Author(s):

Verlee Enid Sater

Keyword(s):

Spectrochemical Analysis ◽

Fruit Tissue

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Relation Between Blood Concentration of Colchicine and Response to Colchicine Treatment in Gout Flare

Case Medical Research ◽

10.31525/ct1-nct03933007 ◽

2019 ◽

Author(s):

Keyword(s):

Blood Concentration ◽

Colchicine Treatment ◽

Gout Flare

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Methods of experimental polyploidization and their use in apple breeding

POMICULTURE & SMALL FRUITS CULTURE IN RUSSIA ◽

10.31676/2073-4948-2020-62-85-90 ◽

2020 ◽

Vol 62 ◽

pp. 85-90

Author(s):

L. V. Tashmatova ◽

O. V. Matsneva ◽

T. M. Khromova ◽

V. V. Shakhov

Keyword(s):

Exposure Time ◽

Cell Walls ◽

Prolonged Exposure ◽

Ornamental Plants ◽

Colchicine Treatment ◽

Apple Trees ◽

Open Ground ◽

High Concentrations ◽

Diploid Gametes

The article presents methods of experimental polyploidy of fruit, berry and ornamental plants. The purpose of this review is to highlight the problems and prospects of polyploidization of plants in the open ground and in vitro culture and the possibility of their application for apple trees. For the purpose of obtaining apple tetraploids as donors of diploid gametes, seed seedlings were treated with a solution of colchicine in concentrations of 0.1-0.4 % for 24 and 48 hours. Colchicine concentrations of 0.3 % and 0.4 % at 48 hours of treatment had a detrimental eff ect on their development. As a result, tetraploids and chimeras were obtained from seeds from free pollination of the varieties Orlik, Svezhest, Kandil Orlovsky, as well as from seeds obtained from crossing the varieties Svezhest×Bolotovskoe, Moskovskoe Оzherel’e×Imrus, Girlyanda×Venyaminovskoe. The optimal concentration of colchicine was 0.1 %. Methods of colchicine treatment have been studied: 1) adding to the nutrient medium, colchicine concentration: 0.01%, 0.02%, exposure time 24h-19 days; 2) applying amitotic solution to the growth point, colchicine concentration: 0.1 %, 0.2 %, exposure time 24h-7 days. To increase the penetration of colchicine through the cell walls, a 0.1 % dimexide solution was used. Studies have shown that high concentrations and prolonged exposure to colchicine reduce the viability of explants.

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Hybrid Triploid Induced by Megaspore Chromosome Doubling in Jujube (Ziziphus jujuba Mill.) ‘Maya’ and Its Characteristics

Forests ◽

10.3390/f12020112 ◽

2021 ◽

Vol 12 (2) ◽

pp. 112

Author(s):

Songshan Liu ◽

Chenxing Zhang ◽

Weicong Yang ◽

Xiang Li ◽

Lu Hou ◽

...

Keyword(s):

Chromosome Doubling ◽

Colchicine Treatment ◽

Fruit Trees ◽

Growth Stress ◽

Optimal Timing ◽

Photosynthetic Parameters ◽

Flower Bud ◽

Treatment Methods ◽

Triploid Individual ◽

Colchicine Solution

Polyploid breeding is an important strategy for tree improvement because polyploid individuals typically show superior traits, such as improved growth, stress resistance, and superior fruit quality. Artificial induction of chromosome doubling of female gametes is an effective approach to obtain triploid progeny. However, no triploid fruit tree cultivars have been developed using this approach. The objective of this study was to explore the utility of chromosome doubling in female gametes of ‘Maya’ jujube to produce triploid individuals. The temporal relationship between flower bud morphology and the megaspore meiotic stage was studied to guide the optimal timing of colchicine treatment. Colchicine solution was applied to bearing shoots of mature ‘Maya’ jujube trees in a field experiment using two treatment methods (improved cotton leaching and injection method) and three concentrations (0.3%, 0.4%, and 0.5%). The water transport rate of ‘Maya’ jujube shoots was studied using dye solution to judge the effectiveness and timing of the colchicine treatment methods. Two triploids were identified among the progenies from the colchicine-treated shoots. The highest efficiency of triploid production was 3.3% when flower buds of diameter 1.76–2.12 mm were treated with 0.3% colchicine solution for 4 h using an improved cotton leaching method. The ground diameter, plant thorn length, leaf width, leaf area, stomatal length, stomatal width, chlorophyll content, and photosynthetic parameters of one triploid individual were significantly higher than those of diploids of identical parentage at 18 months old. Thus, induction of 2n megaspores is an effective approach to generate triploid jujube. These results are expected to promote and accelerate triploid breeding in fruit trees.

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Colchicine treatment can improve outcomes of coronavirus disease 2019 (COVID‐19): A systematic review and meta‐analysis

Clinical and Experimental Pharmacology and Physiology ◽

10.1111/1440-1681.13488 ◽

2021 ◽

Author(s):

Timotius Ivan Hariyanto ◽

Devina Adella Halim ◽

Claudia Jodhinata ◽

Theo Audi Yanto ◽

Andree Kurniawan

Keyword(s):

Systematic Review ◽

Meta Analysis ◽

Colchicine Treatment

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Effect of the Pairing Gene Ph1 and Premeiotic Colchicine Treatment on Intra- and Interchromosome Pairing of Isochromosomes in Common Wheat

Genetics ◽

10.1093/genetics/150.3.1199 ◽

1998 ◽

Vol 150 (3) ◽

pp. 1199-1208 ◽

Cited By ~ 2

Author(s):

Juan M Vega ◽

Moshe Feldman

Keyword(s):

Common Wheat ◽

Homologous Chromosome ◽

Colchicine Treatment ◽

Crossing Over ◽

Meiotic Pairing ◽

Factors Affecting ◽

Homologous Chromosomes ◽

Polyploid Wheat ◽

Main Gene ◽

Ph1 Gene

Abstract The analysis of the pattern of isochromosome pairing allows one to distinguish factors affecting presynaptic alignment of homologous chromosomes from those affecting synapsis and crossing-over. Because the two homologous arms in an isochromosome are invariably associated by a common centromere, the suppression of pairing between these arms (intrachromosome pairing) would indicate that synaptic or postsynaptic events were impaired. In contrast, the suppression of pairing between an isochromosome and its homologous chromosome (interchromosome pairing), without affecting intrachromosome pairing, would suggest that homologous presynaptic alignment was impaired. We used such an isochromosome system to determine which of the processes associated with chromosome pairing was affected by the Ph1 gene of common wheat—the main gene that restricts pairing to homologues. Ph1 reduced the frequency of interchromosome pairing without affecting intrachromosome pairing. In contrast, intrachromosome pairing was strongly reduced in the absence of the synaptic gene Syn-B1. Premeiotic colchicine treatment, which drastically decreased pairing of conventional chromosomes, reduced interchromosome but not intrachromosome pairing. The results support the hypothesis that premeiotic alignment is a necessary stage for the regularity of meiotic pairing and that Ph1 relaxes this alignment. We suggest that Ph1 acts on premeiotic alignment of homologues and homeologues as a means of ensuring diploid-like meiotic behavior in polyploid wheat.

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