Solutions
- Molecular Breeding Solutions of Citrus
- Molecular Breeding Solutions of Rice
- Molecular Breeding Solutions of Wheat
- Breeding for Trait Improving Ornamental Flower
- Molecular Breeding Solutions of Corn
- Spores Breeding Solutions
- Molecular Breeding Solutions of Potato
- Breeding of Ornamental Flower
- Breeding of Cut Flowers
- Breeding of Carnations
- Breeding of Dianthus caryophyllus L.
- Breeding of Paeonia suffruticosa
- Breeding of Lilium
- Breeding of Chrysanthemums
- Breeding of Eustoma grandiflorum
- Breeding of Anthurium andraeanum
- Breeding of Rose
- Breeding of Paphiopedilum
- Breeding of Gerbera hybrida
- Breeding of Delphinium grandiflorum
- Breeding of Narcissus
- Breeding of Alstroemeria aurea Graham
- Breeding of Caladium Vent
- Breeding of Antirrhinum majus
- Breeding of Pot Plants
- Breeding of Bearded Irises
- Breeding of Cyclamen
- Breeding of Pelargonium
- Breeding of Rhododendron
- Breeding of Oncidium
- Breeding of Cymbidium goeringii
- Breeding of Dendrobium officinale
- Breeding of Hippeastrum striatum
- Breeding of Japanese Gentians
- Breeding of Viola tricolor L.
- Breeding of Jasmine
- Breeding of Polianthes tuberosa L.
- Breeding of Schlumbergera truncata
- Breeding of Ornithogalum
- Breeding of Ruta graveolens L.
- Breeding of Onagraceae
- Breeding of Garden Plants
- Breeding of Camellia japonica
- Breeding of Nelumbo nucifera
- Breeding of Agapanthus africanus
- Breeding of Snapdragon
- Breeding of Bellflower
- Breeding of Bougainvillea
- Breeding of Brassica napus
- Breeding of Camellia nitidissima
- Breeding of Tagetes erecta
- Breeding of Chimonanthus praecox
- Breeding of Clematis florida
- Breeding of Lagerstroemia indica
- Breeding of Dahlia
- Breeding of Gladiolus hybridus L.
- Breeding of Helianthus annuus
- Breeding of Ipomoea nil
- Breeding of Kalanchoe
- Breeding of Lavandula
- Breeding of Phalaenopsis equestris
- Breeding of Tulipa gesneriana
- Breeding of Muscari aucheri
- Breeding of Lonicera japonica
- Breeding of Osmanthus delavayi
- Breeding of Paeonia
- Breeding of Prunus mume
- Breeding of Salvia splendens
- Breeding of Syringa oblata
- Breeding of Zantedeschia albomaculata
- Breeding of Petunia hybrida
- Breeding of Osteospermum
- Breeding of Euphorbia pulcherrima
- Breeding of Hemerocallis
- Breeding of Lycoris
- Breeding of Freesia
- Breeding of Hosta
- Breeding of Rhododendron simsii
- Breeding of Cut Flowers
- Molecular Breeding Solutions of Sorghum
- Molecular Breeding Solutions of Millet
- Molecular Breeding Solutions of Soybeans
- Molecular Breeding Solutions of Rape
- Molecular Breeding Solutions of Cotton
- Molecular Breeding Solutions of Barley
- Molecular Breeding Solutions of Sweet Potato
- Molecular Breeding Solutions of Pea
- Molecular Breeding Solutions of Flax
- Molecular Breeding Solutions of Alfalfa
- Molecular Breeding Solutions of Tomato
- Molecular Breeding Solutions of Sunflower
- Molecular Breeding Solutions of Peanut
- Molecular Breeding Solutions of Tobacco
- Molecular Breeding Solutions of Vegetables
- Molecular Breeding Solutions of Medicinal Plant
- Molecular Breeding Solutions of Flowers
Spores Breeding Solutions
INQUIRYIntroduction
A spore is a reproductive unit or cell germinating or developing into a new individual without fusing with other reproductive cells. Spores are produced primarily by fungi, protozoa, algae, plants, and bacteria that reproduce asexually. Macrospores germinate into female gametophytes and are common in gymnosperms and angiosperms. And microspores develop into male gametophytes after germination, which is common in higher plants.
Plant biotechnology can produce improved plants with improved health status or increase the desired germplasm available to plant breeders through tissue culture techniques. Microspore culture is an important method for producing microspore plants, haploid or diploid, and has developed into a valuable system for studying plant developmental biology. In addition, microspore culture is widely and effectively used in plant biotechnology. It is a proven platform for producing large numbers of double haploid plants in a few crop species. For research and breeding purposes, there is a need to obtain as many diploid haploid plants as possible.
Solutions
Based on the unique properties of spores and cutting-edge genome sequencing technology platforms. Our plant biologists have conducted a series of plant tissue culture studies using microspores as specific targets for genetic engineering, successfully delivering desired DNA or proteins into microspores. In addition, we use a novel nanocarrier delivery method using short peptides to make microspore transformation easier to achieve.
In order to provide effective microspore breeding solutions to our global customers, our plant biologists consider various factors that affect microspore androgen production, such as donor quality, microspore developmental stage, pretreatment method, microspore morphological changes, And plant growth regulators in the process of inducing androgen production. We develop customized processes for microspore breeding.
- Preprocessing.
- Microspores are cultured into multicellular structures.
- Embryonic development.
Lifeasible has dedicated many years to the exploration and optimization of microspore breeding methods; proud to provide competitive microspore breeding services for a wide range of plants and provide you with the best solutions to carry out your research projects. Our plant biologists can manipulate immature microspores to improve plant breeding methods' efficiency, speed and precision,and realize the value of microspore culture in plants. Here, we can provide solutions including, but not limited to:
- Spores Breeding Solutions for Charophycean Algae
- Spores Breeding Solutions for Bryophytes
- Spores Breeding Solutions for Pteridophytes
- Spores Breeding Solutions for Gymnosperms
Advantages
- The double haploid plants formed by haploid microspores are excellent materials for the study of plant breeding and plant transformation.
- Androgen production involves controlling and reprogramming developmental switches that enable key factors that control development.
- Significantly reduces the time required for breeding programs.
- Cutting-edge genome sequencing technology platform.
- Experienced plant biologists.
Lifeasible is oriented to national strategic needs and people's livelihood needs, relying on a technology platform to establish a comprehensive service center in the agricultural field and attaching importance to basic technology and new technology research. The scope of services covers molecular biology, sequencing, genetic marker development, bioinformatics analysis, and other crop molecular breeding-related biotechnologies. If you want to know more, please contact us immediately.
Reference
- Blackmore, et al. Microspores Evolution and Ontogeny: Evolution and Ontogeny. Academic Press. 2016.
※ For research or industrial use.
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