Add to ORKGA comparison of gene expression in maize between the parental line F271 and four RILs derived from the cross F288 x F271 was investigated based on hybridization on the 17,555 probes Affymetrix micro-array, targeting nearly one third of the genes present in maize genomes. The parental line had unfavorable alleles for cell wall de-gradability traits at the major QTL position in bin 6.06, while the set of RILs had both the favorable allele and high cell wall degradability. 360 genes were differentially expressed in the four RIL in comparison to F271, including nine genes underlying the major QTL position and 36 underlying two other QTL positions. However, their proposed function (whenever is described) do not allow us to firmly consider their ...
Background: Silage maize is a major forage and energy resource for cattle feeding, and several studi...
BACKGROUND: The elongating maize internode represents a useful system for following development of c...
QTL for cell wall digestibility related traits were investigated in maize (Zea mays L.) topcross exp...
A comparison of gene expression in maize between the parental line F271 and four RILs derived from t...
Silage maize is Currently, with grazing, the basis of cattle feeding. In the near future, maize stov...
In order to contribute to the inventory of genomic areas involved in maize cell wall lignification a...
The identification of genes controlling lignin content is of crucial importance for breeding maize w...
The old INRA flint early line F4, which belongs to the northern flint group, is typified by its hig...
International audienceUnderstanding the mechanisms triggering variation of cell wall degradability i...
Grass species represent a major source of food, feed, and fiber crops and potential feedstocks for b...
Understanding the mechanisms triggering variation of cell wall degradability is a prerequisite to im...
Abstract Background Cell-wall digestibility is the ma...
Understanding cell wall biosynthesis and degradation in grasses has become a major aim in plant biol...
Deciphering the genetic determinants involved in cell wall assembly is a strategic issue for breedin...
The old INRA flint early line F4, which belongs to the Northern Flint group, is typified by its high...
Background: Silage maize is a major forage and energy resource for cattle feeding, and several studi...
BACKGROUND: The elongating maize internode represents a useful system for following development of c...
QTL for cell wall digestibility related traits were investigated in maize (Zea mays L.) topcross exp...
A comparison of gene expression in maize between the parental line F271 and four RILs derived from t...
Silage maize is Currently, with grazing, the basis of cattle feeding. In the near future, maize stov...
In order to contribute to the inventory of genomic areas involved in maize cell wall lignification a...
The identification of genes controlling lignin content is of crucial importance for breeding maize w...
The old INRA flint early line F4, which belongs to the northern flint group, is typified by its hig...
International audienceUnderstanding the mechanisms triggering variation of cell wall degradability i...
Grass species represent a major source of food, feed, and fiber crops and potential feedstocks for b...
Understanding the mechanisms triggering variation of cell wall degradability is a prerequisite to im...
Abstract Background Cell-wall digestibility is the ma...
Understanding cell wall biosynthesis and degradation in grasses has become a major aim in plant biol...
Deciphering the genetic determinants involved in cell wall assembly is a strategic issue for breedin...
The old INRA flint early line F4, which belongs to the Northern Flint group, is typified by its high...
Background: Silage maize is a major forage and energy resource for cattle feeding, and several studi...
BACKGROUND: The elongating maize internode represents a useful system for following development of c...
QTL for cell wall digestibility related traits were investigated in maize (Zea mays L.) topcross exp...