Effects of silencing TT8 and HB12 on in vitro nutrients degradation and VFA production in relation to molecular structures of alfalfa (Medicago sativa)

Lei, Yaogeng; Hannoufa, Abdelali; Wang, Yuxi; Christensen, David A.; Yu, Peiqiang

doi:10.1002/jsfa.9970

Cited by 2 publications

(7 citation statements)

References 25 publications

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“…This VFA production pattern of alfalfa is consistent with previous studies. 13,14 The C 2 /C 3 ratio was about 2.2, which is slightly lower than alfalfa hay in previous studies. 13,28 This might be attributed to the differences in chemical compositions and experiment variations.…”

Section: Comparative Effects Of Overexpressing Mir156mentioning

confidence: 54%

“…Moreover, total carbohydrate (CHO) and non-fiber carbohydrate (NFC) were also calculated according to Higgs et al 12 Ruminal degradation of each fraction was estimated with its empirical degradation rate (K d ), which was obtained from the feed library of NDS Professional (RUM&N, Reggio Emilia, Italy), and passage rate (K p ) of 4.5%. 13,14 2.4. Truly Digestive Nutrients and Energy Value.…”

Section: Methodsmentioning

confidence: 99%

“…DM degradations of alfalfa in this study were higher compared to alfalfa samples in previous studies. 13,14,21,32 This is because alfalfa samples in this study were harvested at early the vegetative stage and lower NDF compared to those in previous studies. In contrast, Wang et al 33 reported similar in vitro DM degradation of Lc-transformed alfalfa, which accumulates anthocyanins in leaves and stems and had similar NDF and protein contents as samples in this study.…”

Section: Comparative Effects Of Overexpressing Mir156mentioning

confidence: 96%

“…Furthermore, genetic modifications also had no effect on NDF degradation, which is similar to the findings of a previous study. 14 This suggests that genetic modification might only affect the NDF content but had no influence on degradability of NDF.…”

Section: Comparative Effects Of Overexpressing Mir156mentioning

confidence: 99%

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Overexpression of miR156 and Silencing SPL6RNAi and SPL13RNAi Genes in Medicago sativa on the Changes of Carbohydrate Physiochemical, Fermentation, and Nutritional Profiles

Lei

Hannoufa

2020

J. Agric. Food Chem.

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This study aimed to explore the comparative effects of overexpressing miR156 with individually silencing SPL6RNAi and SPL13RNAi genes on carbohydrate physiochemical, fermentation, and nutritional profiles of alfalfa (Medicago sativa). Three sub-genotypes of miR156 overexpressed (miR156 OE), SPL6RNAi, and SPL13RNAi grown with the wild type (WT) in a greenhouse were harvested 3 times at an early vegetative stage. Samples were freeze-dried, ground, and analyzed for carbohydrate nutritional profiles in terms of chemical composition, CNCPS fractions, energetic values, in vitro degradation, and fermentation characteristics. Results showed that miR156 OE had lower fiber and higher energy compared to all other genotypes. Moreover, miR156 OE had higher starch compared to SPL13RNAi and higher DM degradation compared to WT and SPL13RNAi. In conclusion, overexpression of miR156 decreased the fiber content of alfalfa but increased energy and DM degradation. SPL6RNAi was more similar to miR156 OE alfalfa in chemical composition and degradation, indicating that the SPL6RNAi gene plays an important role in the miR156 overexpression event.

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Section: Comparative Effects Of Overexpressing Mir156mentioning

confidence: 54%

Section: Methodsmentioning

confidence: 99%

Section: Comparative Effects Of Overexpressing Mir156mentioning

confidence: 96%

Section: Comparative Effects Of Overexpressing Mir156mentioning

confidence: 99%

See 2 more Smart Citations

Overexpression of miR156 and Silencing SPL6RNAi and SPL13RNAi Genes in Medicago sativa on the Changes of Carbohydrate Physiochemical, Fermentation, and Nutritional Profiles

Lei

Hannoufa

2020

J. Agric. Food Chem.

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“…ATR‐FTIR combined with multivariate statistical analysis, has been successfully applied to the differentiation and classification of Citrus species 13 and almond varieties 14 . More recently, this technique has been used to detect changes in the molecular structure of alfalfa induced by genetic modifications, 7,15 which can efficiently predict the ruminal fermentation kinetics 16 . Therefore, the application of ATR‐FTIR to willow foliage samples might be useful to obtain an in‐depth knowledge of the differential molecular profile of the plant parts and cultivars, thus combining the benefits of bioenergy production and animal nutrition for developing efficient agroforestry systems.…”

Section: Introductionmentioning

confidence: 99%

Using attenuated‐total‐reflection Fourier‐transformed spectroscopy to reveal molecular structural differences among willow (Salix spp.) foliage cultivars in relation to their potential as fodders

et al. 2021

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BACKGROUND Willow trees represent a suitable species for the development of agroforestry systems, integrating bioenergy and animal feed production. However, there is a lack of information regarding the suitability of leaves and stems, considered a bioenergy by‐product, as animal feed. The aim of this study was the employment of attenuated total reflectance Fourier transform infrared spectroscopy (550–4000 cm−1) to investigate differences in the nutrient molecular structure profile of leaves and stems of selected willow cultivars to understand their utility for ruminant nutrition. RESULTS Univariate analysis of variance of leaves showed lower intensities of cellulosic compounds and higher of protein in comparison with stems, which suggests higher leaf dry matter and protein digestibility. Spectral analyses revealed differences in both plant parts between Salix cv. Terra Nova and Salix cv. Beagle, cv. Resolution, and cv. Olof. The higher α‐helix to β‐sheet ratio, which is related to a higher protein digestibility, was in correlation with the lower content of condensed tannins. Principal component and agglomerative hierarchical cluster analyses showed significant discrimination among willow cultivars in the cellulosic, structural carbohydrate, and amide regions, whereas differences were less evident for total carbohydrate and lipid‐related regions. CONCLUSION The application of attenuated total reflectance Fourier transform infrared molecular spectroscopy is an effective tool to rapidly identify spectral features related to the nutritional composition of willow foliage and to discriminate between cultivars and parts of the plant. This information would be useful to optimize the use of willow fodders in agroforestry systems. © 2021 Society of Chemical Industry.

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Effects of silencing TT8 and HB12 on in vitro nutrients degradation and VFA production in relation to molecular structures of alfalfa (Medicago sativa)

Cited by 2 publications

References 25 publications

Overexpression of miR156 and Silencing SPL6RNAi and SPL13RNAi Genes in Medicago sativa on the Changes of Carbohydrate Physiochemical, Fermentation, and Nutritional Profiles

Overexpression of miR156 and Silencing SPL6RNAi and SPL13RNAi Genes in Medicago sativa on the Changes of Carbohydrate Physiochemical, Fermentation, and Nutritional Profiles

Using attenuated‐total‐reflection Fourier‐transformed spectroscopy to reveal molecular structural differences among willow (Salix spp.) foliage cultivars in relation to their potential as fodders

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