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Molecular studies on the flower development in apple (Malus X domestica Borkh.)

open access: yesMolecular studies on the flower development in apple (Malus X domestica Borkh.)
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Elevating fruit carotenoid content in apple (Malus x domestica Borkh)

2022
Carotenoid compounds accumulate to confer coloration to plant tissues and have some established health benefits in humans. These pigments have antioxidant properties and are precursors of vitamin A, which is important for human vision. Apple is widely consumed globally, but most commercial apple cultivars have low fruit carotenoid content because these
Charles, Ampomah-Dwamena   +6 more
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Apple (Malus × domestica)

2006
Apple (Malus x domestica) is one of the most consumed fruit crops in the world. The major production areas are the temperate regions, however, because of its excellent storage capacity it is transported to distant markets covering the four corners of the earth.
Abhaya M, Dandekar   +3 more
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DNA “fingerprints” applied to paternity analysis in apples (Malus x domestica)

Theoretical and Applied Genetics, 1990
Analysis of minisatellite DNA sequences, yielding so called DNA "fingerprints", has proven useful in paternity analysis for several different organisms. Here 64 apple seedlings, grown from seeds collected in an orchard with three cultivars, were analyzed using the M13 "fingerprint" probe.
H, Nybom, B A, Schaal
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Callus formation from Malus x domestica cv. ?Jonathan? protoplasts

Plant Cell Reports, 1984
Protoplasts could be successfully isolated and cultured from callus and suspension cultures of Malus xdomestica cv. 'Jonathan'. Protoplast-derived colonies were recovered when the osmoticum (glucose) was gradually reduced in semi-solid 8p medium or by the use of feeder plates.
M, Kouider   +4 more
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Breeding Apple (Malus x Domestica Borkh)

2008
The apple tree is a hybrid originating from a combination of wild species (Malus sieversii is supposed to be the main contributor). Growers at first selected the best specimens by seedlings, but when grafting was discovered as a mean of vegetative propagation, improvement in fruit quality became faster.
S. Pereira-Lorenzo   +2 more
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Characterisation of the DELLA subfamily in apple (Malus x domestica Borkh.)

Tree Genetics & Genomes, 2006
The hormone gibberellic acid (GA) regulates growth and development throughout the plant life cycle. DELLA proteins are key components of the GA signalling pathway and act to repress GA responses. The “DELLA” amino acid motif is highly conserved among diverse species and is essential for GA-induced destruction of DELLA proteins, which relieves ...
Toshi Foster   +6 more
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Transgenic Apple (Malus x domestica)

2000
The genus Malus contains up to 122 species (Ponomarenko 1986). Cultivated apples have been developed mainly from the hybrid species M. x domestica Borkh. which has the genetic background of several wild species (Korban and Chen 1992). Apple breeding has traditionally been carried out by crosspollination and subsequent selection of superior seedlings in
J.-L. Yao   +3 more
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OPTIMIZATION OF ROOTING OF IN VITRO PROPAGATED MALUS X DOMESTICA ¿PINOVA¿

Acta Horticulturae, 2006
Following Agrobacterium-mediated transformation of apple, it is rather difficult to achieve rooting of new shoots. Therefore in vitro rooting of micropropagated 'Pinova'apple shoots was tested in different media in order to carry out rooting of transformed shoots.
J. Kolozsvari Nagy, S. Sule
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