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
Breeding of High Quality Tobacco
INQUIRYIntroduction
Tobacco was one of the first plants to be used in molecular biology and genetic engineering research. In recent years, high quality tobacco has become the goal of tobacco selection and breeding, obtaining tobacco with short breeding cycle and high yield can greatly save breeding time, increase economic benefits. Improving some traits of tobacco may result in higher tobacco quality, such as alkaloid and reducing sugar content, as well as leaf size and number of leaves per plant.
Service
The genetic transformation system of tobacco is very mature, making the use of molecular breeding techniques to obtain high quality tobacco strains with considerable success. Genetic engineering is an important technical tool to obtain high yielding, short breeding cycle tobacco and an important way to improve the quality of tobacco. Lifeasible's powerful molecular technology platform can help you get high quality tobacco in a timely and accurate manner.
- Sequencing-based breeding: Through high-throughput sequencing technology can fully study crop genomes, clone and study genes with different functions and master genetic laws.
- Construction of transformation vector: Transferring genes associated with increased yield, shorter breeding cycles, or improved tobacco traits into the vector.
- Preparation of explants: Leaves, stems or seeds can be selected as explants, then sterilize and put it into appropriate culture medium for aseptic culture.
- Genetic transformation of tobacco: Get transgenic tobacco by Agrobacterium tumefaciens mediated explant method.
- Identification of high quality plants: Screening of transgenic tobacco with corresponding antibiotic resistance.
- Access to large quantities of transgenic tobacco: Obtaining a large number of transgenic tobacco by tissue culture of resistant calli.
- Genetic marker assisted breeding: For phenotypes with inaccurate genetic measurement of some traits, genetic markers such as cytological markers and biochemical markers can be used to assist selection, which can accelerate the breeding process.
Technology Platforms
- Genetic transformation service platform: High-level transgenic and gene editing technology, fast and efficient genetic transformation.
- Vector construction platform: Rich vector resources can provide vector with different resistances to meet diversified needs.
- High-throughput sequencing technology platform: DNA-level sequencing, RNA-level sequencing, single cell level sequencing, epigenetics level sequencing, proteomics and metabolomics services.
- High quality environmental cultivation platform: Provide the suitable environmental conditions for tobacco growth to meet its growth needs.
Advantages
- Experienced technical team, standardized experimental platform to meet diversified needs
- Customized professional services for different clients' needs
- Timely communication with customers to keep you informed of the progress of the experiment
- One-stop service and high efficiency to ensure obtaining transgenic plants in a short time
Lifeasible is committed to help you to obtain high-yield and high-quality tobacco in a short time through molecular biology technology. Please feel free to contact us if you need any further information about related research and services, we will be delighted to reply to You.
Reference
- Sheludko, Y. V. Agrobacterium-mediated transient expression as an approach to production of recombinant proteins in plants. Recent Patents on Biotechnology. 2008, 2(3): 198-208.
※ For research or industrial use.
Online Inquiry