Lignification is a vital function in plants for improving tolerance against stressors. This article
presents studies conducted on the relationship of wheat straw lignin with enhanced plant …

Background Lignin is an important structural component of plant cell wall that confers
mechanical strength and tolerance against biotic and abiotic stressors; however it affects the …

The use of hybrid wheat is one way to improve the yield in the future. However, greater plant
heights increase lodging risk to some extent. In this study, two hybrid combinations with …

Lignin is a plant component with important implications for various agricultural disciplines. It
confers rigidity to cell walls, and is therefore associated with tolerance to abiotic and biotic …

Increasing wheat yield is one of the effective ways to guarantee food security. In the current
field production, dense planting with reasonable nitrogen is the most direct and efficient …

Agricultural fiber sources, such as wheat straw, are promising lignocellulosic feedstocks for
the generation of renewable substitutes for synthetic materials (eg, plastics, construction …

Lignin is a major carbon sink in the biosphere accounting for about 30% of total carbon
sequestered in terrestrial plants. Being the second most abundant polymer on earth, it is a …

Plants are exposed to various environmental stresses, like mineral deficiency, heavy metals,
high and low temperature, and drought, causing adverse effects on plant growth and …

Alfalfa is an important forage crop. Yield and quality are frequently threatened by extreme
environments such as drought and salt stress. As a component of the cell wall, lignin plays …

Lignin is a phenolic heteropolymer found in most terrestrial plants that contributes an
essential role in plant growth, abiotic stress tolerance, and biotic stress resistance. Recent …