Your search keyword '"METABOLIC ENERGY"' showing total 293 results

1. Determination of nutritional value and methane production potential of styrax tree (Styrax officinalis L.) leaves

Author

Balyen, İlyas and BOZKURT KİRAZ, Ayfer

Published

2024

2. Diacylglycerol acyltransferase (DGAT) in Crangon crangon and Pandalus montagui (Decapoda, Caridea) - Implications for lipid storage capacities and life history traits

Author

Koch, Marie, Tebben, Jan, and Saborowski, Reinhard

Published

2023

3. Seasonal Herbage–Livestock Balance and Grassland Pressure Index Analysis in the Yellow River Source Park, Tibet Plateau, China.

Author

Wang, Yalin, Geng, Yuanyue, Wang, Xungang, Xu, Tianwei, Zhang, Qian, Liu, Hongjin, Zhao, Na, and Xu, Shixiao

Subjects

*MOUNTAIN meadows, *SPRING, *AUTUMN, *GRASSES, *SEASONS

Abstract

Grassland carrying capacity is an indicator for measuring the stability of grassland ecosystems and can provide a basis for formulating regional sustainable grazing strategies. However, most previous studies on this have only considered annual fluctuations, but seasonal changes were ignored. In this study, the herbage yield and nutrient value of two grassland types in Yellow River Source Park (YRSP) were measured by sampling point survey method in four seasons, and the seasonal and annual grassland carrying capacity, carrying numbers of standard sheep unit (SU) were estimated based on the dry matter (DM) content, crude protein, and metabolic energy of herbage. Due to the carrying capacity being low during the yellow and wintering periods, we combined them and calculated the carrying capacity for only three periods, including the flourishing period, greening period, and withering period. The grassland pressure index (GPI) was measured by the ratio of the actual standard sheep number and the calculated number. The results showed that the herbage yield and nutrient output were higher in spring and summer, lower in autumn and winter, and showed a tendency for alpine meadows to be higher than alpine grasslands during the flourishing period (p < 0.05). The unit area carrying capacity varied significantly with the season and showed the seasonal changing characteristics of the flourishing period > greening period > withering period. The seasonal carrying number was much higher than the actual carrying number during the flourishing period and much lower than the actual carrying number during the withering period. In terms of annual carrying capacity, the GPI was balanced when considering livestock alone, while critical overloaded when considering livestock and wildlife. This study suggested the influence of seasonal change on the grassland carrying capacity should be fully considered in the grassland utilization. Meanwhile, the feeding needs of livestock and wildlife should be taken into account, and timely supplemented when forage is in short supply. [ABSTRACT FROM AUTHOR]

Published

2024

4. Grazing effects on forage quality parameters of three rangeland species in arid regions of Semnan, Iran.

Author

Kamiziani, Milad, Nikoo, Shima, Jafari, Hamed Joneidi, and Asl, Fateme Naghizade

Subjects

OVERGRAZING, ARID regions, LIVESTOCK productivity, ANIMAL feeds, RANGELANDS

Abstract

Forage quality determines livestock production and overgrazing results in significant changes in forage quality of rangeland species. This study aimed to compare the effects of overgrazing on forage quality of Artemisia sieberi, Zygophyllum eurypterum and Stipa barbata as dominant species producing more than 90% of livestock feed in arid rangelands of Semnan, Iran. The study area was classified into non-grazed and overgrazed sites based on the estimated carrying capacity. Data collection was conducted at the end of the grazing season. The collected forage samples were analysed for crude protein (CP), potassium (K), phosphorus (P), acid detergent fibre (ADF), digestibility, percentage of dry matter digestibility (DMD) and metabolic energy (ME). Results from the t-test indicated that overgrazing led to significant (p < 0.05) reduction in CP, K, P, DMD and ME and a significant (p < 0.05) increase in ADF in A. sieberi and Z. eurypterum, in comparison to plants from non-grazed areas, with CP being the most sensitive qualitative parameter to overgrazing in the two species. Shrubs including A. sieberi and Z. eurypterum showed more susceptibility to overgrazing while the grass species S. barbata proved to be less affected. A rational grazing system is required where A. sieberi and Z. eurypterum are present. [ABSTRACT FROM AUTHOR]

Published

2024

5. ASSESSMENT OF THE BIOLOGICAL ACTIVITY OF THE SOIL UNDER SORGHUM X DRUMMONDII (STEUD.) MILLSP. & CHASE WHEN APPLYING MINERAL FERTILIZERS

Author

Natalya N. Shuliko, Artem Yu. Timokhin, Elena V. Tukmacheva, and Vasily S. Boyko

Subjects

sorghum-sudank hybrid, mineral fertilizers, soil microbiocenosis, enzymatic activity, yield, digestible protein, metabolic energy, Agriculture, Science

Abstract

In this study (2020-2022), the effect of mineral fertilizers on the activity of the microbial pool and the enzymatic activity of meadow-chernozem soil under the sowing of sorghum-sudank hybrid (Sorghum х drummondii (Steud.) Millsp. & Chase), as well as the productivity of the culture. The experiment was carried out in a long-term stationary experiment of the laboratory of field feed production of the Omsk Agrarian Scientific Center. The highest population of microorganisms was observed with complex fertilization, an increase in relation to the non-maneuverable variant was 39%. The number of saprotrophic bacteria increased to 39,1 × 106 CFU/g of soil (30,0 × 106 CFU/g at the control), amylolytic microorganisms, including actinomycetes – up to 30,4 × 106 CFU/g (19,8 × 106 CFU/g at the control), cellulose–destroying - up to 97,0 × 103 CFU/g (66,6 × 103 CFU/g under control). It was found that microbiological processes in the soil proceeded more intensively on a fertilized (N60P60) background, the increase in the Pm coefficient was 15% compared to the control. The determination of the enzymatic activity of meadow-chernozem soil, depending on the application of the studied agricultural method, revealed an increase in the enzymatic processes of invertase and urease formation (up to 6%), inhibition of catalase (decrease to 34%) as a result of acidification of the soil by anions of mineral fertilizers. The improvement of the nutrient regime of the soil due to the integrated use of mineral fertilizers ensured the collection of 22,67 t/ha of green mass, 6,32 t/ha of feed units, 0,75 t/ha of digestible protein, 69,87 gj/ha of metabolic energy. Sponsorship information. The work was carried out within the framework of the state research program FNUN-2022-0015.

Published

2024

6. Effects of Dietary Energy Levels on Growth Performance, Nutrient Digestibility, Rumen Barrier and Microflora in Sheep.

Author

Wang, Xiaolin, Zhou, Jia, Lu, Mingli, Zhao, Shoupei, Li, Weijuan, Quan, Guobo, and Xue, Bai

Subjects

*METABOLIZABLE energy values, *WEIGHT gain, *GENE expression, *BACTERIAL communities, *TIGHT junctions, *RUMEN fermentation

Abstract

Simple Summary: Dietary energy level impacts rumen function and the microflora in ruminants, which are closely related to their growth and well-being. This study explored how dietary energy levels affect sheep's growth performance, nutrient digestibility, rumen fermentation, barrier function, and microflora. Our findings indicated that the average daily weight gain and nutrient digestibility improve with the increase of dietary energy. Meanwhile, the concentration of total volatile fatty acids and propionate in rumen increased, which indicated the enhancement of rumen fermentation. The content and expression of tight junction proteins, which represents rumen barrier function, increased with the increase of dietary energy. In addition, the bacterial diversity in rumen decreased, and the relative abundance of some bacteria like Prevotellaceae, Muribaculaceae, Saccharofermentans, Prevotella and Succiniclasticum changed at the family and genus levels. Ultimately, the growth performance, fermentation characteristics and barrier function were the best when the daily dietary metabolizable energy was 9.8–10.4 MJ/kg. This study revealed the complex interaction between diet, microbiota, and rumen health, ultimately guiding the development of more effective and scientifically informed animal feeding strategies. Dietary energy is crucial for ruminants' performance and health. To determine optimal dietary energy levels for growing sheep, we evaluated their growth performance, nutrient digestibility, rumen fermentation, barrier function, and microbiota under varying metabolic energy (ME) diets. Forty-five growing Yunnan semi-fine wool sheep, aged 10 months and weighing 30.8 ± 1.9 kg, were randomly allocated to five treatments, each receiving diets with ME levels of 8.0, 8.6, 9.2, 9.8 or 10.4 MJ/kg. The results showed that with increasing dietary energy, the average daily gain (ADG) as well as the digestibility of dry matter (DM) and organic matter (OM) increased (p < 0.05), while the feed conversion ratio (FCR) decreased linearly (p = 0.01). The concentration of total VFA (p = 0.03) and propionate (p = 0.01) in the rumen increased linearly, while rumen pH (p < 0.01) and the acetate–propionate ratio (p = 0.01) decreased linearly. Meanwhile, the protein contents of Claudin-4, Claudin-7, Occludin and ZO-1 as well as the relative mRNA expression of Claudin-4 and Occludin also increased (p < 0.05). In addition, rumen bacterial diversity decreased with the increase of dietary energy, and the relative abundance of some bacteria (like Saccharofermentans, Prevotella and Succiniclasticum) changed. In conclusion, increasing dietary energy levels enhanced growth performance, nutrient digestibility, rumen fermentation, and barrier function, and altered the rumen bacterial community distribution. The optimal dietary ME for these parameters in sheep at this growth stage was between 9.8 and 10.4 MJ/kg. [ABSTRACT FROM AUTHOR]

Published

2024

7. Effects of Different Defatting Methods of Black Soldier Fly (Hermetia illucens) Larvae Meal on the Metabolic Energy and Nutrient Digestibility in Young Laying Hens.

Author

Xin, Yizhen, Xu, Meng, Chen, Lifei, Wang, Guiying, Lu, Wenjing, Liu, Ziqi, Shang, Rongsheng, Li, Yifan, Wang, Zhuoya, Sun, Haoyang, and Li, Lusheng

Subjects

*HERMETIA illucens, *HENS, *INSECT larvae, *CHROMIUM oxide, *PETROLEUM production

Abstract

Simple Summary: Defatting can be performed mechanically by cutting the frozen insect larvae and then pressing them to enable the leakage of intracellular fat, or chemically using petroleum ether extraction of the insect meal. This study aimed to investigate the effects of different defatting methods of black soldier fly (Hermetia illucens) larvae meal (BSFM) on the metabolic energy and nutrient digestibility in laying hens. The results show that both defatting methods of BSFM had no adverse effects on the metabolic energy and nutrient digestibility in young laying hens, but pressed black soldier fly meal (BSFMp) demonstrated better effects on the digestibility of metabolic energy and nutrients in the feed for young laying hens. This study aimed to investigate the effects of different defatting methods of black soldier fly (Hermetia illucens) larvae meal (BSFM) on the metabolic energy and nutrient digestibility in laying hens. Sixty young laying hens (Hy-Line W-36) aged 63 days were randomly divided into two groups (G1 and G2), each with five replicates of six hens housed in individual cages. Group G1 was fed 25% pressed black soldier fly meal (BSFMp) and 75% basal diet, and Group G2 was fed 25% extracted black soldier fly meal (BSFMe) and a 75% basal diet. Both diets included 5 g/kg chromium oxide as an external marker. A 7-day preliminary trial was followed by a 4-day experimental period. The results indicate that pressing and extracting significantly affected the digestibility of crude fat and total energy in BSFM, with BSFMp showing significantly higher crude fat digestibility than BSFMe. Similarly, total energy digestibility was also significantly higher in BSFMp. However, there were no significant differences in dry matter, organic matter, and crude protein digestibility between the two processing methods. The apparent metabolic energy values of BSFMp and BSFMe were 16.34 and 12.41 MJ/kg, respectively, showing a significant difference. The nitrogen-corrected metabolic energy values were 15.89 MJ/kg in BSFMp and 11.93 MJ/kg in BSFMe, indicating a highly significant difference. The digestibility of arginine and leucine in BSFMp was significantly higher than in BSFMe, while differences in lysine, cystine, threonine, tryptophan, and isoleucine were not significant. In conclusion, both defatting methods of BSFM had no adverse effects on the metabolic energy and nutrient digestibility in young laying hens, but BSFMp demonstrated better effects on the digestibility of metabolic energy and nutrients in the feed for young laying hens. [ABSTRACT FROM AUTHOR]

Published

2024

8. Active Arm Swing During Running Improves Rotational Stability of the Upper Body and Metabolic Energy Efficiency: Active Arm Swing During Running Improves Rotational Stability of the Upper Body and…

Author

Koo, Young-Jun, Ogihara, Naomichi, and Koo, Seungbum

Published

2025

9. Effect of black soldier fly larva meal on energy, protein digestibility, performance, and carcass quality in local crossbred chickens

Author

Dyah Lestari Yulianti, Osfar Sjofjan, Angga Firmansyah, Abdurahhman Ahzami, and Baiq Widya Rahmatul Aini

Subjects

Black soldier larva, Carcass, Local crossbreed chicken, Metabolic energy, Animal culture, SF1-1100

Abstract

This research aims to determine the effects of Black Soldier Larva (BSF) meal on metabolic energy, protein digestibility, production performance, characteristics, and carcass quality of local crossbred chickens. The material for this research was 100 local crossbred chickens (the result of crossing male Kampung chickens with female laying hens) aged 30-35 days. The average initial body weight of chickens was 340.6 grams with a coefficient of variation of 5.24%. The research feed is a commercial feed for the finishing period. The experiment involved four treatment groups, where BSF larva meal was incorporated into the feed at levels of 0% (P0), 5% (P1), 10% (P2), and 15% (P3). The experimental design was a completely randomized design with four treatments and five replications. The research variables were metabolic energy, protein digestibility, feed consumption, body weight gain, feed conversion ratio, carcass percentage, and carcass quality. The data were subjected to an analysis of variance, and the differences between groups were determined by Duncan’s test. Based on statistical analysis, BSF Larva meal influences breast muscle weight, meat protein content, apparent metabolic digestibility, and N retention. It can be concluded that BSF larva meal can replace 10% of complete feed without reducing production performance.

Published

2024

10. High-energy and high-amino acid diet enhances production performance and antioxidant capacity in yellow-feathered broilers under heat stress

Author

Huihua Mao, Jinglong Chen, Jinbi Zhang, Xu Zhang, Shiyong Xu, and Ling Zhang

Subjects

yellow-feathered broiler, heat stress, metabolic energy, amino acid, production performance, Animal culture, SF1-1100

Abstract

ABSTRACT: This study investigated the ameliorating effects of high-energy and high-amino acid (HEHA) diets on heat stress (HS) in yellow-feathered broilers. Broilers aged 35 d were randomly assigned to 3 groups: control and HS groups fed the basic normal diet, and the HEHA group fed the HEHA diet (basal diet + 100 kcal/kg AME + 15 % DAAs). The HS and HEHA groups were exposed to cyclic HS (30 ± 1 to 34 ± 1 ℃) for 2 wk, while the control group was maintained at 26 ± 1 ℃. The results indicated that the HEHA diet significantly alleviated HS-induced feed intake and body weight loss. HEHA feeding mitigated the increase in body temperature during HS. Compared with observations in the HS group, the HEHA diet reduced the levels of ALT, Alb, and corticosterone in the serum and downregulated the gene expression of HSP27 and HSP60 in the liver. Moreover, the HEHA group showed higher GSH-px activity in the serum and SOD and GSH-Px activity in the jejunal mucosa than that of the HS group. HEHA supplementation also reduced MDA levels in the liver. In conclusion, the HEHA diet improved the production performance of broilers under HS by increasing their antioxidant capacities. These findings suggest an effective strategy to combat HS in poultry production.

Published

2024

11. Artificial intelligence-based metabolic energy prediction model for animal feed proportioning optimization

Author

Hehua Wang, Jinhai Liu, Ziyu Dong, Jingnan Song, and Zhaoyu Zhu

Subjects

artificial intelligence, animal breeding, long short-term memory, feed proportioning, metabolic energy, Animal culture, SF1-1100

Abstract

With the progress of science and technology, Artificial Intelligence (AI) technology has become one of the mainstream technologies in the current society, providing an important driving force for human development. Thereby, in order to improve the effect of animal feeding, using AI technology to improve animal feed has become a necessary measure. Based on this, this work designs to use Long Short-Term Memory (LSTM) technology to build an intelligent prediction model of metabolic energy, which provides a reference for animal feed proportioning design. This work also explores the comprehensive performance of the LSTM model through simulation evaluation. The model is evaluated with different nodes as the main indicators. The results show that compared with the models with 5 and 20 nodes, the model with 10 nodes has better performance, and the highest data calculation accuracy of the model is about 90%. Meanwhile, the highest fitting degree of the model designed is 98.2%, and the lowest is 96.2%. It suggests that the model designed can better predict metabolic energy. This work provides technical support for expanding the application scope of AI technology and contributes to the intelligence of animal feeding.

Published

2023

12. Production performance of kampung hens fed rations containing black soldier fly larvae powder

Author

Joice Bana, Anggraini Barlian, and Ahmad Ridwan

Subjects

feed quality, metabolic energy, production performance, livestock, kampung hen, poultry feed, Veterinary medicine, SF600-1100

Abstract

This research aimed to find a suitable formulation for rations containing Black soldier fly larvae powder to support the optimal kampung hen production performance. Four to five-month-old Kampung hens were given feed with different amounts of black soldier fly larvae powder (n = 4 hens/treatment) to adjust protein and energy levels: R0 (commercial feed only, 17.53% protein, 3067 kcal/kg), R1 (14% protein, 2600 kcal/kg energy), R2 (14% protein, 2800 kcal/kg energy), R3 (16% protein, 2600 kcal/kg energy), R4 (16% protein, 2800 kcal/kg energy), R5 (18% protein, 2600 kcal/kg energy), R6 (18% protein, 2800 kcal/kg energy), R7 (20% protein, 2600 kcal/kg energy), R8 (20% protein, 2800 kcal/kg energy), R9 (22% protein, 2600 kcal/kg energy), and R10 (22% protein, 2800 kcal/kg energy). We measured several performance parameters, including body weight, feed consumption, specific growth rate, feed conversion ratio, visceral index, intraperitoneal fat index, and tissue protein content. Results show that treatment R6 produced significantly better overall performance (p < 0.05) than all other treatments except R5. Feed containing black soldier fly larvae powder with 18% protein content and 2800 kcal/kg energy is an inexpensive and readily available way to support the maximum growth of Kampung hens.

Published

2023

13. Evaluation of Available Energy and Standardized Ileal Digestibility of Amino Acids in Fermented Flaxseed Meal for Growing Pigs.

Author

Wei, Zixi, Xu, Lei, Guo, Yao, Guo, Baozhu, Lu, Chunxiang, Sun, Wenjuan, Li, Yanpin, Jiang, Xianren, Li, Xilong, and Pi, Yu

Subjects

*SWINE, *METHIONINE, *FEED analysis, *AMINO acids, *FLAXSEED, *LINSEED oil, *NUTRITIONAL value

Abstract

Simple Summary: The cyanogenic glycosides (CGs) in flaxseed meal (FSM) severely limit its application in pig diets. Microbial fermentation is an effective method to reduce CGs in FSM. However, currently, there is limited information on the nutritional value of fermented flaxseed meal (FFSM) as a protein source in pig diets. In this study, we significantly reduced the CG content and enhanced the nutrient profile of FSM through microbial fermentation. Subsequently, we conducted a thorough evaluation of the nutritional value of FFSM, providing valuable information on the available energy value and amino acid standard ileal digestibility of FFSM. These data are crucial for the application of FSM in pig feed formulations, contributing to the development of more scientific and systematic feeding strategies to enhance pig production. Flaxseed meal (FSM) is a byproduct of flaxseed oil extraction which has rich nutritional value and can be used as a high-quality new protein ingredient. However, the anti-nutrient factor (ANF) in FSM restricts its potential application in feed. The strategy of microbial fermentation is a highly effective approach to reducing ANF in FSM and enhancing its feeding value. However, evaluation of the nutritional value of fermented flaxseed meal (FFSM) in growing pigs has not yet been conducted. Thus, the purpose of this study was to investigate the nutritional value of FFSM in growing pigs and comparison of the effect of fermentation treatment on improving the nutritional value of FSM. Two experiments were conducted to determine the available energy value, apparent digestibility of nutrients, and standard ileal digestibility of amino acids of FSM and FFSM in growing pigs. The results showed as follows: (1) Fermentation treatment increased the levels of crude protein (CP), Ca and P in FSM by 2.86%, 9.54% and 4.56%, while decreasing the concentration of neutral detergent fiber (NDF) and acid detergent fiber (ADF) by 34.09% and 12.71%, respectively (p < 0.05); The degradation rate of CGs in FSM was 54.09% (p < 0.05); (2) The digestible energy (DE) and metabolic energy (ME) of FSM and FFSM were 14.54 MJ/kg, 16.68 MJ/kg and 12.85 MJ/kg, 15.24 MJ/kg, respectively; (3) Compared with FSM, dietary FFSM supplementation significantly increased the apparent digestibility of CP, NDF, ADF, Ca, and P of growing pigs (p < 0.05) and significantly increased the standard ileal digestibility of methionine (p < 0.05). These results indicate that fermentation treatment could effectively enhance the nutritional value of FSM and provide basic theoretical data for the application of FFSM in pig production. [ABSTRACT FROM AUTHOR]

Published

2024

14. EFFECTS OF PRE-LAY DIFFERENT PROTEIN AND ENERGY DIETARY LEVELS ON SUBSEQUENT PERFORMANCES IN LOHMANN BROWN.

Author

(DEGENARO), Mădălina CIOARIC, STOICA, Liliana, ȘONEA, Cosmin, BĂLĂCEANU, Rosalie, MILITARU, Lorena Alice, and DOJANĂ, Nicolae

Subjects

*METABOLIZABLE energy values, *EGGSHELLS, *DIETARY proteins, *ALBUMINS, *DIET

Abstract

The aim of this paper was to find out the effects of diets with different levels of metabolizable energy (ME) and crude protein (CP) administered during the pre-lay period on the subsequent productive performances of the Lohmann Brown hybrid. A low ME diet (2,690 kcal/kg) and a high ME diet (2,820 kcal/kg were prepared, each one with two variants of CP levels: low (15%) and high (17%). These diets were applied from 15 to 22 weeks of age. From 23 weeks of age, all birds were fed a diet containing 2,700 kcal/kg and 15.6% protein. Egg rate was significantly higher in the high-proteinhigh-ME fed group. In the same group, the intensity of the yolk colour decreased and the level of total protein concentration in the albumen was higher. Other researched productive parameters (feed intake, egg mass, feed conversion rate) and egg properties (eggshell colour, eggshell breaking strength, Haugh units) were found not significantly modified by the experimental pre-lay feeding. [ABSTRACT FROM AUTHOR]

Published

2024

15. Artificial intelligence-based metabolic energy prediction model for animal feed proportioning optimization.

Author

Wang, Hehua, Liu, Jinhai, Dong, Ziyu, Song, Jingnan, and Zhu, Zhaoyu

Subjects

ARTIFICIAL intelligence, ANIMAL feeding, PREDICTION models, ANIMAL intelligence, ANIMAL models in research

Abstract

With the progress of science and technology, Artificial Intelligence (AI) technology has become one of the mainstream technologies in the current society, providing an important driving force for human development. Thereby, in order to improve the effect of animal feeding, using AI technology to improve animal feed has become a necessary measure. Based on this, this work designs to use Long Short-Term Memory (LSTM) technology to build an intelligent prediction model of metabolic energy, which provides a reference for animal feed proportioning design. This work also explores the comprehensive performance of the LSTM model through simulation evaluation. The model is evaluated with different nodes as the main indicators. The results show that compared with the models with 5 and 20 nodes, the model with 10 nodes has better performance, and the highest data calculation accuracy of the model is about 90%. Meanwhile, the highest fitting degree of the model designed is 98.2%, and the lowest is 96.2%. It suggests that the model designed can better predict metabolic energy. This work provides technical support for expanding the application scope of AI technology and contributes to the intelligence of animal feeding. [ABSTRACT FROM AUTHOR]

Published

2023

16. Influence of Body Condition on Milk Production and Metabolic Profile in Assaf Sheep.

Author

Simeonov, M., Harmon, D. L., and Stoicheva, I.

Subjects

*SHEEP milk, *MILK yield, *EWES, *SHEEP breeds, *SHEEP, *METABOLIZABLE energy values, *SHEEP breeding, *ENERGY dissipation

Abstract

The aim of the study was to monitor the relationship between body condition score (BCS) and body weight (BW) on milk productivity and metabolic profile in sheep of the Assaf breed during the first months of lactation. The experiment was conducted from January 2020 to April 2020 with 378 ewes aged 3 and 4 years (second and third lactation). The influence of BCS and BW on milk yield and dry matter (DM) and metabolizable energy (ME) intake was established. Animals with BCS < 3 had significantly higher average daily millk (ADM) consumed more DM and ME (P<0.01) and had a higher negative energy efficiensy (- 17.53%), compared to animals with BCS above 4.1. The sheep weighing 71 to 75 kg have a higher ADM, compared to animals weighing less than 71 kg and more than 76 kg, but also had a higher negative energy efficiency (-20.35%), despite the fact that they consumed significantly more DM and ME (P<0.01). It was found that the expenditure of ME for lactation was higher, the higher the milk yield of the animals (R² =0.9734). When combining the ME requirement for maintenance (MEm), Mcal and the ME requirement for gain (MEg), when ADG was positive the total MEred, Mcal, was highly related with the milk yield of the animals (R² =0.6519). The direct effect of milk yield on average daily gain shows a high correlation between the milk yield and average daily gain (R² =0.8747), which had an impact on body energy loss/gain, with the correlation between mean daily milk yield and body energy los/gain (BEL/g) being significant (R² =0.6309). [ABSTRACT FROM AUTHOR]

Published

2023

17. Production performance of kampung hens fed rations containing black soldier fly larvae powder.

Author

Bana, Joice Jusmiaty, Barlian, Anggraini, and Ridwan, Ahmad

Subjects

HENS, POULTRY feeding, ANIMAL industry, BODY weight, ENERGY consumption

Abstract

This research aimed to find a suitable formulation for rations containing Black soldier fly larvae powder to support the optimal kampung hen production performance. Four to five-month-old Kampung hens were given feed with different amounts of black soldier fly larvae powder (n = 4 hens/treatment) to adjust protein and energy levels: R0 (commercial feed only, 17.53% protein, 3067 kcal/kg), R1 (14% protein, 2600 kcal/kg energy), R2 (14% protein, 2800 kcal/kg energy), R3 (16% protein, 2600 kcal/kg energy), R4 (16% protein, 2800 kcal/kg energy), R5 (18% protein, 2600 kcal/kg energy), R6 (18% protein, 2800 kcal/kg energy), R7 (20% protein, 2600 kcal/kg energy), R8 (20% protein, 2800 kcal/kg energy), R9 (22% protein, 2600 kcal/kg energy), and R10 (22% protein, 2800 kcal/kg energy). We measured several performance parameters, including body weight, feed consumption, specific growth rate, feed conversion ratio, visceral index, intraperitoneal fat index, and tissue protein content. Results show that treatment R6 produced significantly better overall performance (p < 0.05) than all other treatments except R5. Feed containing black soldier fly larvae powder with 18% protein content and 2800 kcal/kg energy is an inexpensive and readily available way to support the maximum growth of Kampung hens. [ABSTRACT FROM AUTHOR]

Published

2023

18. Influence of high temperatures on the behavior, productivity and bioenergetic characteristics of goats

Author

Lutsenko M., Pirova L., Lastovska I., and Kosior L.

Subjects

goats, temperature, productivity, metabolic energy, behavior, bio-energy., Animal culture, SF1-1100

Abstract

Abstract. The research was carried out in IE «Babyni kozy» of Kyiv region at a goat farm where a stable-pasture system of goats is used. In winter, goats are kept at free-stall housing on a deep litter and during the grazing period, on a forage area. Goats are milked on a milking parlor into the milk line. The article presents the results of researches of the influence of ambient temperature during the thermo neutral period and during the period of high temperatures on the productivity, daily behavior and bioenergetic characteristics of Saanen goats. A group of goats of the Saanen breed of the 3rd lactation was formed during the period of the milk yield increasing. The research was performed in thermo neutral period (average daily air temperature was up to + 22.3 °C) and during the period of temperature load at an average daily air temperature of + 27.6 °C. Each period lasted 12 days. It has been found that goats responded to the change in temperature by reducing of productivity by 10.70 % (0.35 kg). Hereby, the mass fraction of fat in goat's milk during this period increased by 0.09 %. During the period of high temperatures, goats spent a little less time eating food, watering and walking, but rested more in a supine position compared to the thermo neutral period. In general, in both temperature periods, the duration of the main acts of behavior in goats corresponded to physiological norms. The decrease in the duration of feed consumption during the temperature load caused a decrease in the number of feed reactions and the duration of chewing the cuddy in goats. The energy index, i.e. the amount of net energy consumption of feed, which transfers into milk energy during the temperature load decreased by 1.42 MJ %. Net energy consumption per 1 MJ of milk energy during the period of high temperatures has increased by 0.62 MJ.

Published

2023

19. Research Progress in Nutritional Requirements and Feed for Yellow-feathered Broiler Breeders

Author

Sheng ZHANG and Shouqun JIANG

Subjects

yellow-feathered broiler breeder, nutritional regulation, metabolic energy, amino acid, vitamin a, prediction model, Agriculture

Abstract

In order to promote the efficient and healthy development of yellow-feathered broiler breeders, it is very important to solve the existing problems such as dietary waste, environmental pollution and low reproductive efficiency. The paper summarized the relevant domestic and foreign literature on nutritional requirements and application of feeds of yellow-feathered broiler breeders. It summed up studies about requirements of metabolic energy, crude protein, main essential amino acids (methionine, lysine, threonine, tryptophan, arginine and isoleucine), vitamins (VA, VD and VE), and mineral elements (Ca, P, Fe, Cu, Zn, Mn and Se), feed resource evaluation and utilization, application of bioactive additives, probiotics, plant extracts and Chinese herbal preparations, anti-stress agents in breeders of yellow-feathered broider, and analyzed the trend of future researches. On the whole, in recent years, there have been more and more researches on nutritional requirements and application of feed additives in yellow-feathered broiler breeders, but mainly concentrated in the egg-laying period. The highlight in the researches on nutritional requirements in recent years was correlation analysis between metabolic energy requirements per day and metabolic body weight, average daily gain, daily egg production. The prediction models of dietary nitrogen-corrected metabolic energy requirements for three types of breeder hens of yellow-feathered broilers were established with metabolic weight, average daily gain and egg production as variables. At present, there are few reports on nutrition and feed restriction technology in the brooding period and growing period of yellow-feathered broiler breeders. Key techniques for feed resource evaluation and safe & efficient utilization and reproductive performance improvement of breeder hens still need to be broken through.

Published

2022

20. Effects of metabolic energy intervention on lipid content and liver transcriptome in finisher yellow-feathered chickens

Author

Xiaoyan Cui, Khaled Abouelezz, Zongyong Jiang, Zhongyong Gou, Yibing Wang, and Shouqun Jiang

Subjects

metabolic energy, fatty liver, lipid metabolism, transcriptome, chicken, Animal culture, SF1-1100

Abstract

High-energy diets improve growth rates and shorten the growth period while resulting in excessive fat deposition in the liver of birds. The effect of different energy diets on lipid content and liver transcriptome in finisher Huxu chickens was examined here. A total of 200 90-d-old Huxu chickens with an average BW of 1.08 kg were randomly divided into two dietary treatments. The birds were fed diets either containing 12.06 MJ ME/kg (low metabolic energy, LME) or 13.31 MJ ME/kg (high metabolic energy, HME) for 45 days. Chickens fed the HME diet had significantly higher total triglyceride and total cholesterol concentrations in both plasma and liver than did those fed the LME diet. Transcriptomic profiling showed 480 known differentially expressed genes (DEG), with 180 down-regulated and 300 up-regulated chickens from the HME diet compared with the LME diet. Notably, these genes were mostly enriched in lipid metabolism including the PPAR signalling pathway, fatty acid elongation, and glycerophospholipid metabolism. The relative mRNA expression level of 14 lipid metabolism-related genes, included 13 up-regulated (MBOAT2, PLA2G2E, AGPAT2, AGPAT3, PCYT2, PEMT, ELOVL2, HADHA, ACOT1L, FABP3, FABP1, PLIN1, RXRG) and one down-regulated (LCAT) gene. In conclusion, the present findings indicate that a high-energy diet likely regulates gene expression of the 14 lipid metabolism-related genes through the PPAR signalling pathway, fatty acid elongation, and glycerophospholipid metabolism resulting in excessive fat accumulation in the liver of Huxu chickens. These results provide a better understanding of the biological mechanisms by which the increased dietary energy induces fat accumulation in the liver.Highlights A high-energy diet without change in protein level induced excessive fat accumulation in the Huxu chickens. Chickens fed the high-energy diet had induced higher total triglyceride and total cholesterol concentrations in both plasma and liver. This study showed a comprehensive profile of hepatic gene expression in chickens with fatty liver induced by high energy.

Published

2022

21. STUDY OF GAS PRODUCTION, DIGESTIBILITY AND METABOLIC ENERGY IN ROUGH AND SUCCULENT FEEDS, WITH FRESH AND LYOPHILIZED RUMEN FLUID.

Author

Laleva, Stayka, Kalaydzhiev, Georgi, Ivanov, Nikolay, Yordanova, Daniela, Karabashev, Vladimir, and Vasilev, Vasil

Subjects

RUMINANTS, FREEZE-drying, WHEAT straw, SILAGE, ANIMAL feeds

Abstract

Rough hay and straw, and succulent silage and feeds are essential for feeding ruminants. Their quality depends on the phase of harvesting, technology and method of storage. Digestibility and energy value studies are vital for a balanced diet of ruminants. The aim of the study was to determine the gas production, digestibility and metabolic energy of straw, alfalfa hay and corn silage using in vitro methodologies in fresh and lyophilized rumen fluid. By means of a probe and a vacuum machine we collected inoculum (rumen fluid) from rams 2 - 3 years old from the breed Bulgarian dairy synthetic population (BDSP). An in vitro methodology was used to perform analyzes of rough and succulent feed's with the Ankom RF Gas Production System. Digestibility and metabolic energy was evaluated and gas production was analyzed at four levels: 24, 48, 72 and 120 hours of incubation, with fresh and lyophilized rumen fluid. The obtained results show lower values for digestibility of silage, alfalfa hay and straw in the lyophilized rumen fluid compared to fresh - 68.72%, 62.33%, 29.48% and 64.92%, 58.48%, 26.93% respectively. The values of metabolic energy (ME) in straw are higher in lyophilized inoculum compared to fresh - 5.904 and 5.676 ME, respectively. In alfalfa hay higher values were obtained with fresh rumen fluid 6,813 ME compared to lyophilized 5.637 ME. No differences were found in silage - 5.89 and 5.88 ME. In the case of maize silage, the values are closest in fresh and lyophilized inoculum at 24 hours of incubation - 99.019 and 92.730 dm/mL, respectively. The released gases are lower at the lyophilized rumen fluid by 15.5%, 13.4% and 13% at 48 h, 72 h and 120 h incubation respectively. Gas production in alfalfa hay with lyophilized rumen fluid as well as in corn silage is lower compared to fresh silage. The largest differences were found at 24 hour - 84.41 dm/mL for lyophilisate and 124.67 dm/mL for fresh inoculum. In the wheat straw, gas production at 24 hour is higher in the lyophilized rumen fluid 99.55 dm/mL compared to fresh 88.77 dm/mL. At the following levels, the released gases increase slightly and have close values. The obtained results in metabolic energy have divergent values for alfalfa hay and straw for different types of rumen fluid. Gas production in alfalfa hay as well as in corn silage with lyophilized rumen fluid is lower compared to fresh, and in straw the results for both types of inoculum are similar, with a slight increase in lyophilized rumen fluid. [ABSTRACT FROM AUTHOR]

Published

2023

22. Productivity of Sugar Sorgo in a Mix with Forage Beans in Modeling Various Conditions of Mineral Nutrition.

Author

Timokhin, A. Yu., Boiko, V. S., Volodin, A. B., Nizhelsky, T. N., and Mikhailov, V. V.

Abstract

The research was carried out to study the effect of various conditions of mineral nutrition on the productivity of sugar sorghum mixed with fodder beans in the conditions of the south of western Siberia. The work was carried out in 2020–2021 in a field experiment in Omsk oblast. The scheme of the experiment included the following options: soil supply with mobile phosphorus (factor A): medium (50–100 mg/kg according to F.V. Chirikov, background 0), increased (100–120 mg/kg, background I and 140–150 mg/kg, background II), high (150–200 mg/kg, background III); phosphorus fertilizer (factor B): P0 and P60; nitrogen fertilizer (factor C): N0, N30, and N60. The soil of the experimental plot in the arable layer in the control was characterized by a neutral reaction of the environment, a humus content of 7.01–7.24%, and a low supply of nitrate nitrogen in the 0–0.2 m. Cultivation of drought-resistant crops allows for efficient use of atmospheric and soil moisture resources. The use of mineral fertilizers also contributes to its economical use per unit of crop, significantly reducing the water-consumption coefficient. With an increase in the level of phosphorus supply, a trend towards an increase in the share of legumes was noted, the use of nitrogen mineral fertilizers increased the competitive ability of sugar sorghum. Optimization of the conditions of mineral nutrition ensured the production of up to 5680 feed units/ha and 28.29 t/ha of green mass at 3100 fodder units/ha and 15.38 t/ha of green mass in the control. The collection of more than 0.5 t of digestible protein and 60 GJ/ha of metabolizable energy in the harvest of the bean-sorghum mixture is a good contribution to the field forage production system in the forest-steppe of the south of western Siberia. [ABSTRACT FROM AUTHOR]

Published

2023

23. Inorganic Polyphosphate: Coacervate Formation and Functional Significance in Nanomedical Applications

Author

Schröder HC, Neufurth M, Zhou H, Wang S, Wang X, and Müller WEG

Subjects

polyphosphate nanoparticles, phase separation, biomaterial, metabolic energy, morphogenetic activity, tissue regeneration, Medicine (General), R5-920

Abstract

Heinz C Schröder,1 Meik Neufurth,1 Huan Zhou,2 Shunfeng Wang,1 Xiaohong Wang,1 Werner E G Müller1 1ERC Advanced Investigator Group, Institute for Physiological Chemistry, University Medical Center of the Johannes Gutenberg University, Mainz, Germany; 2School of Health Sciences and Biomedical Engineering, Heibei University of Technology, Tianjin, People’s Republic of ChinaCorrespondence: Heinz C Schröder; Werner E G Müller, ERC Advanced Investigator Group, Institute for Physiological Chemistry, University Medical Center of the Johannes Gutenberg University, Duesbergweg 6, Mainz, 55128, Germany, Tel +49 6131 392 5791 ; +49 6131 392 5910, Email hschroed@uni-mainz.de; wmueller@uni-mainz.deAbstract: Inorganic polyphosphates (polyP) are long-chain polymers of orthophosphate residues, which, depending on the external conditions, can be present both physiologically and synthetically in either soluble, nanoparticulate or coacervate form. In recent years, these polymers have received increasing attention due to their unprecedented ability to exhibit both morphogenetic and metabolic energy delivering properties. There are no other physiological molecules that contain as many metabolically utilizable, high-energy bonds as polyP, making these polymers of particular medical interest as components of advanced hydrogel scaffold materials for potential applications in ATP-dependent tissue regeneration and repair. However, these polymers show physiological activity only in soluble form and in the coacervate phase, but not as stable metal-polyP nanoparticles. Therefore, understanding the mechanisms of formation of polyP coacervates and nanoparticles as well as their transformations is important for the design of novel materials for tissue implants, wound healing, and drug delivery and is discussed here.Keywords: polyphosphate nanoparticles, phase separation, biomaterial, metabolic energy, morphogenetic activity, tissue regeneration

Published

2022

24. Acceleration of Wound Healing through Amorphous Calcium Carbonate, Stabilized with High-Energy Polyphosphate.

Author

Wang, Shunfeng, Neufurth, Meik, Schepler, Hadrian, Tan, Rongwei, She, Zhending, Al-Nawas, Bilal, Wang, Xiaohong, Schröder, Heinz C., and Müller, Werner E. G.

Subjects

*WOUND healing, *CALCIUM carbonate, *TOPICAL drug administration, *GRANULATION tissue, *CHRONIC wounds & injuries, *BONE regeneration, *SKIN injuries

Abstract

Amorphous calcium carbonate (ACC), precipitated in the presence of inorganic polyphosphate (polyP), has shown promise as a material for bone regeneration due to its morphogenetic and metabolic energy (ATP)-delivering properties. The latter activity of the polyP-stabilized ACC ("ACC∙PP") particles is associated with the enzymatic degradation of polyP, resulting in the transformation of ACC into crystalline polymorphs. In a novel approach, stimulated by these results, it was examined whether "ACC∙PP" also promotes the healing of skin injuries, especially chronic wounds. In in vitro experiments, "ACC∙PP" significantly stimulated the migration of endothelial cells, both in tube formation and scratch assays (by 2- to 3-fold). Support came from ex vivo experiments showing increased cell outgrowth in human skin explants. The transformation of ACC into insoluble calcite was suppressed by protein/serum being present in wound fluid. The results were confirmed in vivo in studies on normal (C57BL/6) and diabetic (db/db) mice. Topical administration of "ACC∙PP" significantly accelerated the rate of re-epithelialization, particularly in delayed healing wounds in diabetic mice (day 7: 1.5-fold; and day 13: 1.9-fold), in parallel with increased formation/maturation of granulation tissue. The results suggest that administration of "ACC∙PP" opens a new strategy to improve ATP-dependent wound healing, particularly in chronic wounds. [ABSTRACT FROM AUTHOR]

Published

2023

25. Effects of metabolic energy intervention on lipid content and liver transcriptome in finisher yellow-feathered chickens.

Author

Cui, Xiaoyan, Abouelezz, Khaled, Jiang, Zongyong, Gou, Zhongyong, Wang, Yibing, and Jiang, Shouqun

Subjects

CHICKENS, LIPID metabolism, GENE expression profiling, TRANSCRIPTOMES, LIVER

Abstract

High-energy diets improve growth rates and shorten the growth period while resulting in excessive fat deposition in the liver of birds. The effect of different energy diets on lipid content and liver transcriptome in finisher Huxu chickens was examined here. A total of 200 90-d-old Huxu chickens with an average BW of 1.08 kg were randomly divided into two dietary treatments. The birds were fed diets either containing 12.06 MJ ME/kg (low metabolic energy, LME) or 13.31 MJ ME/kg (high metabolic energy, HME) for 45 days. Chickens fed the HME diet had significantly higher total triglyceride and total cholesterol concentrations in both plasma and liver than did those fed the LME diet. Transcriptomic profiling showed 480 known differentially expressed genes (DEG), with 180 down-regulated and 300 up-regulated chickens from the HME diet compared with the LME diet. Notably, these genes were mostly enriched in lipid metabolism including the PPAR signalling pathway, fatty acid elongation, and glycerophospholipid metabolism. The relative mRNA expression level of 14 lipid metabolism-related genes, included 13 up-regulated (MBOAT2, PLA2G2E, AGPAT2, AGPAT3, PCYT2, PEMT, ELOVL2, HADHA, ACOT1L, FABP3, FABP1, PLIN1, RXRG) and one down-regulated (LCAT) gene. In conclusion, the present findings indicate that a high-energy diet likely regulates gene expression of the 14 lipid metabolism-related genes through the PPAR signalling pathway, fatty acid elongation, and glycerophospholipid metabolism resulting in excessive fat accumulation in the liver of Huxu chickens. These results provide a better understanding of the biological mechanisms by which the increased dietary energy induces fat accumulation in the liver. A high-energy diet without change in protein level induced excessive fat accumulation in the Huxu chickens. Chickens fed the high-energy diet had induced higher total triglyceride and total cholesterol concentrations in both plasma and liver. This study showed a comprehensive profile of hepatic gene expression in chickens with fatty liver induced by high energy. [ABSTRACT FROM AUTHOR]

Published

2022

26. The energetic cost of human walking as a function of uneven terrain amplitude.

Author

Hosseini-Yazdi SS and Kuo AD

Abstract

Humans expend more energy walking on uneven terrain, but the amount varies across terrains. Few experimental characterizations exist, each describing terrain qualitatively without any relation to others or flat ground. This precludes mechanistic explanation of the energy costs. Here we show that energy cost varies smoothly and approximately quadratically as a function of terrain amplitude. We tested this with healthy adults (N=10) walking on synthetic uneven terrain with random step heights of parametrically controlled maximum amplitude (four conditions 0 - 0.045 m), and at four walking speeds (0.8 - 1.4 m.s-1). Both net metabolic rate and the rate of positive work increased approximately with amplitude squared and speed cubed (R2 = 0.74,0.82 respectively), as predicted by a simple walking model. The model requires work to redirect the body center of mass velocity between successive arcs described by pendulum-like legs, at proportional metabolic cost. Humans performed most of the greater work with terrain amplitude early in the single stance phase, and with speed later in stance during push-off. Work and energy rates changed with approximately linear proportionality, with a ratio or delta efficiency of 49.5% (R2 = 0.68). The efficiency was high enough to suggest substantial work performed passively by elastic tendon and not only by active muscle. Simple kinematic measures such as mid-swing foot clearance also increased with terrain amplitude (R2 = 0.65), possibly costing energy as well. Nevertheless, most of the metabolic cost of walking faster or on more uneven terrain can be explained mechanistically by the work performed., (© 2025. Published by The Company of Biologists.)

Published

2025

27. Modulating Multiarticular Energy during Human Walking and Running with an Unpowered Exoskeleton.

Author

Zhou, Tiancheng, Zhou, Zhijie, Zhang, Hanwen, and Chen, Wenbin

Subjects

*KNEE, *RECTUS femoris muscles, *KNEE joint, *JOINTS (Anatomy), *HIP joint, *ENERGY transfer, *ENERGY function

Abstract

Researchers have made advances in reducing the metabolic rate of both walking and running by modulating mono-articular energy with exoskeletons. However, how to modulate multiarticular energy with exoskeletons to improve the energy economy of both walking and running is still a challenging problem, due to the lack of understanding of energy transfer among human lower-limb joints. Based on the study of the energy recycling and energy transfer function of biarticular muscles, we proposed a hip–knee unpowered exoskeleton that emulates and reinforces the function of the hamstrings and rectus femoris in different gait phases. The biarticular exo-tendon of the exoskeleton assists hamstrings to recycle the kinetic energy of the leg swing while providing hip extension torque in the swing phase. In the following stance phase, the exo-tendon releases the stored energy to assist the co-contraction of gluteus maximus and rectus femoris for both hip extension and knee extension, thus realizing the phased modulation of hip and knee joint energy. The metabolic rate of both walking (1.5 m/s) and running (2.5 m/s) can be reduced by 6.2% and 4.0% with the multiarticular energy modulation of a hip–knee unpowered exoskeleton, compared to that of walking and running without an exoskeleton. The bio-inspired design method of this study may inspire people to develop devices that assist multiple gaits in the future. [ABSTRACT FROM AUTHOR]

Published

2022

28. Toxicity Investigations of (R)-3-Hydroxybutyrate Glycerides In Vitro and in Male and Female Rats.

Author

Dolan, Laurie C., Karikachery, Alice Raphael, Thipe, Velaphi C., Arceneaux, Benjamin G., Katti, Kavita K., Katti, Kattesh V., and Chesne, Alton M.

Abstract

TCN006, a formulation of (R)-3-Hydroxybutyrate glycerides, is a promising ingredient for enhancing ketone intake of humans. Ketones have been shown to have beneficial effects on human health. To be used by humans, TCN006 must be determined safe in appropriately designed safety studies. The results of a bacterial reverse mutation assay, an in vitro mammalian micronucleus study, and 14-and 90-day repeat dose toxicity studies in rats are reported herein. In the 14- and 90-day studies, male and female Wistar rats had free access to drinking water containing 0, 75,000, 125,000 or 200,000 ppm TCN006 for 92 and 93 days, respectively. TCN006 tested negative for genotoxicity and the no observed adverse effect level (NOAEL) for toxicity in the 14- and 90-day studies was 200,000 ppm, the highest dose administered. In the longer term study, the mean overall daily intake of TCN006 in the 200,000 ppm groups was 14,027.9 mg/kg bw/day for males and 20,507.0 mg/kg bw/day for females. At this concentration, palatability of water was likely affected, which led to a decrease in water consumption in both males and females compared to respective controls. This had no effect on the health of the animals. Although the rats were administered very high levels of (R)-3-Hydroxybutyrate glycerides, there were no signs of ketoacidosis. [ABSTRACT FROM AUTHOR]

Published

2022

29. EVALUATION OF THE QUALITY OF SWEET SORGHUM FODDER.

Author

Kapustin, S. I., Volodin, A. B., Kapustin, A. S., and Samokish, N. V.

Subjects

*SORGO, *ESSENTIAL amino acids, *ANIMAL feeds, *LEUCINE, *ALANINE, *PHENYLALANINE, *ASPARTIC acid

Abstract

According to the obtained data in 2019-2020, a plant height of the earliest variety Galiya was 201 cm, mid-season L-7897 and Tandem were 218 cm, late ripening Yarik was 282 cm. The maximum yield was obtained from the hybrid Yarik 77.0 t ha-1 of green matter and 21.5 t ha-1 of dry matter. A significant yield of green and dry matter was provided by L-7897 and Tandem. The data of the dry matter analysis show that the combinations Tandem and Yarik exceed the rates of the best standard Silosnoe 88 in terms of crude protein content and have high rates of metabolic energy. The crude fat content was similar to the standard rates. It was also found to be significant in the varieties Tandem and L-7897. The presence of crude fiber was low. The lowest rate was obtained in the hybrid Yarik. In comparison to the replaceable amino acids, the essential amino acids in the dry matter of sweet sorghum, which was cut in the milk-wax stage of ripeness, have a lower content. The average presence of essential amino acids was found in valine, phenylalanine, and argirine. Leucine had a significant rate. The maximum rates were found in the new combinations of Yarik and Tandem. Among the replaceable amino acids, the highest content had glutamic, aspartic acids, proline, alanine. [ABSTRACT FROM AUTHOR]

Published

2022

30. Grain and Straw Yield of Paddy Cultivars and Feed Quality Traits of Paddy Straw.

Author

Akay, Hasan

Abstract

Copyright of Gesunde Pflanzen is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

31. Eligibility criteria for joint ensilage of maize and yellow lupine on poorly productive lands of the Upper Volga region

Author

Viktor Alexandrovich Shevchenko, Alexey Malakhovich Soloviev, and Natalya Pavlovna Popova

Subjects

corn, yellow lupine, silage components, digestible protein, metabolic energy, amino acid composition, Environmental sciences, GE1-350, Science

Abstract

In the modern conditions of RF agro-industrial complex development, the transfer of animal husbandry to an industrial basis is possible only with high-grade vegetable protein production increase. Silage of the aboveground mass of pure corn during all phases of plant growth and development does not provide the content of nutrients in the feed unit according to the zootechnical requirements. Therefore, to optimize the finished feed in terms of the carbohydrate-protein ratio, green mass of legumes should be added to its composition during the preparation of silage from corn. The selection of the legume component should be carried out taking into account the following main criteria: coincidence with corn by the growing season duration, the same attitude to soil and climatic resources and insolation conditions, high provision of the legume component with digestible protein, dry matter, starch and exchange energy during the ensiling period. It has been established that the joint ensiling of corn with yellow lupine is expedient when the corn is in waxy ripeness, and the lupine is in the phase of shiny beans with the component ratio of 55:45%. In this case, the content of digestible protein in 1 feed unit of finished silage is 100.2 g at reliable feed supply with both irreplaceable (36.0 g) and critical (7.2 g) amino acids.

Published

2021

32. The physiological polyphosphate as a healing biomaterial for chronic wounds: Crucial roles of its antibacterial and unique metabolic energy supplying properties.

Author

Müller, Werner E.G., Schepler, Hadrian, Neufurth, Meik, Wang, Shunfeng, Ferrucci, Veronica, Zollo, Massimo, Tan, Rongwei, Schröder, Heinz C., and Wang, Xiaohong

Subjects

CHRONIC wounds & injuries, POLYPHOSPHATES, POWER resources, HEALING, INORGANIC polymers, ADENOSINE triphosphate, WOUND healing

Abstract

• Wound healing, especially the healing of chronic wounds, requires an increased demand for metabolic energy (ATP). • The physiological polymer polyphosphate (polyP) is an efficient source for the generation of ATP during wound regeneration. • In addition, polyP undergoes coacervation, a process during which bacteria are killed. • These two pillars are the basis for the successful regeneration of chronic wounds in humans. Insufficient metabolic energy, in the form of adenosine triphosphate (ATP), and bacterial infections are among the main causes for the development of chronic wounds. Previously we showed that the physiological inorganic polymer polyphosphate (polyP) massively accelerates wound healing both in animals (diabetic mice) and, when incorporated into mats, in patients with chronic wounds. Here, we focused on a hydrogel-based gel formulation, supplemented with both soluble sodium polyP (Na-polyP) and amorphous calcium polyP nanoparticles (Ca-polyP-NP). Exposure of human epidermal keratinocytes to the gel caused a significant increase in extracellular ATP level, an effect that was even enhanced when Na-polyP was combined with Ca-polyP-NP. Furthermore, it is shown that the added polyP in the gel is converted into a coacervate, leading to encapsulation and killing of bacteria. The data on human chronic wounds showed that the administration of hydrogel leads to the complete closure of these wounds. Histological analysis of biopsies showed an increased granulation of the wounds and an enhanced microvessel formation. The results indicate that the polyP hydrogel, due to its properties to entrap bacteria and generate metabolic energy, is a very promising formulation for a new therapy for chronic wounds. [ABSTRACT FROM AUTHOR]

Published

2023

33. Assessment of Sex, Age, and Metabolism Relationships to Serum Thyroid Concentrations in Retired Alaskan Husky Sled Dogs

Author

Margret Lenfest, John P. Loftus, Heather J. Huson, Andrei Gudkov, Katerina Andrianova, Daria Fleyshman, and Joseph Wakshlag

Subjects

Alaskan Husky, sled dog, metabolic energy, thyroid, free T4, total T4, Veterinary medicine, SF600-1100

Abstract

Sled dogs are purpose-bred dogs selected for endurance work. Prior studies in racing dogs showed that serum thyroid parameters (total T4, free T4, and T3) are lower than the reference range in approximately 25% of dogs. Whether this is related to training, breeding, or body condition remains unclear. We hypothesized that retired sled dogs of normal body condition (9–13 years old) would have predominantly normal serum thyroid parameters and that serum thyroid status would be correlated to energy consumption based on metabolic body weight. Eighty-six sled dogs who were deemed healthy on physical exam, not on confounding medications, and without a prior diagnosis of hypothyroidism were included. All dogs' mean body condition scores were 5.1 ± 0.4 and body weight 24.5 ± 4.2 kg at fasting blood collection with stable dietary intake for 3 months before sampling. The total T4, free T4, and T3 serum concentrations were 23.4 ± 9.1 nmol/L, 9.53 ± 4.3 pmol/L, and 0.93 ± 0.39 nmol/L, respectively, with 38% lower than the reference range for total T4, 45% for free T4, and 37% for T3. All dogs were negative for thyroglobulin antibody, and TSH results were within normal ranges. Pearson's correlates based on kilocalories consumed on a metabolic body weight basis for total T4 (R = 0.14), free T4 (R = 0.01) and T3 (R = 0.23) showed poor correlation. No differences were observed between thyroid hormones and age, breed, or sex. Inactive, retired sled dogs can be misdiagnosed with hypothyroidism; therefore, our data suggests that misdiagnosis of hypothyroidism can occur and that the racing Alaskan sled dog has a unique reference range that should be considered when assessing serum thyroid status.

Published

2022

34. COMPARATIVE STUDY OF GAS PRODUCTION, DIGESTIBILITY AND METABOLIC ENERGY IN DIFFERENT FEEDS BY IN VITRO ANALYSIS WITH FRESH AND LYOPHILIZED RUMEN FLUID.

Author

Laleva, Stayka, Yordanova, Daniela, Kalaydzhiev, Georgi, Karabashev, Vladimir, Ivanov, Nikolay, Angelova, Teodora, and Vasilev, Vasil

Subjects

ENERGY metabolism, RUMEN (Ruminants), GREENHOUSE gas mitigation, DIGESTION, SORGHUM varieties

Abstract

The release of greenhouse gas emissions from ruminants into the atmosphere is a global problem and requires in-depth inquiry. The aim of these research is to compare the produced gas emissions, digestibility and metabolic energy of different feeds by in vitro analysis with fresh and lyophilized rumen fluid. The following feeds were included in the study: spring peas, winter peas, spring vetch, anniversary sainfoin, sorghum - two hybrids, Sorghum sudanense and maize. An in vitro methodology was used to perform analyzes of feed's with the Ankom RF Gas Production System. Gas production was analyzed at two levels - 24 and 48 hours, and incubation, digestibility, metabolic energy, acid detergent fiber - ADF and neutral detergent fiber - NDF with fresh and lyophilized rumen fluid. Highest produced quantities of gas at 24 h and 48 h of incubation were found for spring pea's varieties - 196.8 dm/mL and 210.7 dm/mL and hybrid sorghum varieties - 190.7 dm/mL and 227.4 dm/mL respectively. The gas production of technical sorghum and Sorghum sudanense, are lower 172 and 178 dm/mL. Sainfoin had the lowest levels of gas production with - 107.7 dm/ mL and 152.7 dm/mL. The digestibility of spring peas, spring vetch and winter peas has similar values, ranging from 84.78% to 90.23%. The digestibility of hybrid sorghum varieties is 79.55%, in technical sorghum is 49.19%, and in Sorghum sudanense is 60.69%. The data of the metabolic energy obtained using fresh and lyophilized rumen fluid in winter peas and spring peas are very close. In the three groups of analyzed feeds the metabolic energy has almost equal values: 8.74 for hybrid sorghum, 8.55 for technical sorghum and 8.69 for Sorghum sudanense. The comparison between fresh and lyophilized rumen fluid, using in "in vitro" analysis of different feeds shows minor variation. Lyophilized inoculum is applicable in "in vitro" analysis. [ABSTRACT FROM AUTHOR]

Published

2022

35. INFLUENCE OF SOME BIOLOGICALLY ACTIVE SUBSTANCES ON GAS PRODUCTION, DIGESTIBILITY AND METABOLIC ENERGY IN DIFFERENT FEEDS.

Author

Laleva, Stayka, Yordanova, Daniela, Kalaydzhiev, Georgi, Karabashev, Vladimir, Ivanov, Nikolay, Angelova, Teodora, and Vasilev, Vasil

Subjects

BIOACTIVE compounds, ENERGY metabolism, DIGESTION, GREENHOUSE gas mitigation, HERBS

Abstract

The release of greenhouse gas emissions from ruminants into the atmosphere is a global problem and requires in-depth inquiry. The aim of this research is to evaluate influence of some biologically active substances on gas production, digestibility and metabolic energy in different feeds. The influence of herbs: thyme, St. John's wort, lemongrass, lavender, oregano, chamomile and caltrop on the greenhouse gas emissions, digestibility and metabolic energy when added to various feeds has been studied. Oils from the above-mentioned biological stimulators were used. An in vitro methodology Ankom RF Gas Production System was used in the analysis of the feed. Gas production was analyzed at two levels - 24 and 48 hours of incubation, digestibility, metabolic energy, acid detergent fiber - ADF and neutral detergent fiber - NDF using fresh and lyophilized rumen fluid. Gas production from the ration for cows at 24 h of incubation, of the control sample(without additives) was 212.45 dm/mL, and at the feed with the addition of thyme, St. John's wort, lemongrass, lavender, oregano, chamomile and caltrop - 144.19, 157.97, 134.51, 182.25, 149,18, 141.42 and 154.33 dm/mL, respectively. We found reduced digestibility in the cows ration with the addition of essential oil of lemongrass - 3.43%, lavender and thyme - 2.68% and 2.65% respectively. In the sheep ration, the digestibility was considerable reduced with the addition of lavender oil - by 4.64%, with the oil of caltrop and thyme - by 2.83% and 2.76%, respectively. We found an improvement in digestibility in the range of 2.5-3% with the addition of oregano oil, St. John's wort and chamomile. The addition of oil from mentioned herbs to sheep's and cow's whole-ration considerable reduces the production of gas emissions. In-vitro analysis of metabolic energy with the addition of essential oils revealed a significant reduction of the same in all studied herbs - from 9.66 in the control samples to 6.08 - 6.96. [ABSTRACT FROM AUTHOR]

Published

2022

36. EFFICIENCY OF USING MIXED FEEDS WITH DIFFERENT ENERGY LEVELS IN FEEDING LARVAE AND FRY RAINBOW TROUT

Author

V. M. Kondratiuk

Subjects

rainbow trout, larvae and fry, fish feeding, mixed feeds, metabolic energy, productivity, economic efficiency, Animal culture, SF1-1100

Abstract

The article considers the effectiveness of the use of mixed feeds with different levels of metabolic energy for the cultivation of larvae and fry of rainbow trout. The aim of the experiment was to establish the influence of different levels of energy supply of trout on its performance. For this purpose, five experimental groups were formed by the method of analogues. During the equalization period, the experimental fish consumed feed of the control group. In the main period, the level of metabolic energy in trout feed ranged from 14 to 18 MJ. As a result of the conducted researches it is established that the increase of energy content in compound feed for trout larvae and fry from 16 to 18 MJ contributes to the increase of their weight by 11.1 % (p < 0.05) and growth intensity - by 5.6-14.2 %, while the reduction of energy content to 14 MJ / kg contributes to a probable decrease (p < 0.05) in mass by 11.9%, and a decrease in growth intensity by 6.0-14.7 %. It is proved that the feed consumption per 1 kg of weight gain in trout larvae and fry, which received feed with an energy content of 18 MJ was lower by 5.1 %, and with its content of 14 MJ - 4.8 % higher compared to fish consuming feed with an energy content of 16 MJ / kg. The safety of the experimental fish throughout the experiment was close and ranged from 83.1 to 84.9 %. However, it is most economically feasible to grow trout that consume feed with a nutritional value of 16 MJ of metabolic energy, compared with a decrease or increase of this indicator to 14 or 18 MJ, respectively

Published

2020

37. The hearts of large mammals generate higher pressures, are less efficient and use more energy than those of small mammals.

Author

Snelling EP and Seymour RS

Subjects

Animals, Blood Pressure physiology, Basal Metabolism, Body Size, Energy Metabolism, Mammals physiology, Heart physiology

Abstract

A prevailing assumption in the cardiovascular field is that the metabolic rate of the heart is a constant proportion of a mammal's whole-body aerobic metabolic rate. In this Commentary, we assemble previously published cardiovascular, metabolic and body mass data from matched terrestrial mammalian species, at rest and during heavy exercise, and reveal scaling relationships that challenge this assumption. Our analyses indicate that the fractional metabolic cost of systemic perfusion compared with whole-body metabolic rate increases significantly with body size among resting mammals, from ∼2.5% in a mouse to ∼10% in an elephant. We propose that two significant body size-dependent effects contribute to this conclusion; namely, that larger species generate higher mean systemic arterial blood pressure and that their myocardium operates with lower external mechanical efficiencies compared with those of smaller species. We discuss potential physiological and mechanical explanations, including the additional energy needed to support the arterial blood column above the heart in larger species, especially those with long necks, as well as the possible sources of greater internal energy losses from the heart of larger species. Thus, we present an updated view of how increasing blood pressure and decreasing efficiency of the myocardium result in an increasing fractional metabolic cost of perfusion as body size increases among resting mammals., Competing Interests: Competing interests The authors declare no competing or financial interests., (© 2024. Published by The Company of Biologists Ltd.)

Published

2024

38. Postsynaptic Potential Energy as Determinant of Synaptic Plasticity

Author

Huanwen Chen, Lijuan Xie, Yijun Wang, and Hang Zhang

Subjects

computational model, synaptic plasticity, metabolic energy, homeostatic plasticity, homo- and heterosynaptic plasticity, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Metabolic energy can be used as a unifying principle to control neuronal activity. However, whether and how metabolic energy alone can determine the outcome of synaptic plasticity remains unclear. This study proposes a computational model of synaptic plasticity that is completely determined by energy. A simple quantitative relationship between synaptic plasticity and postsynaptic potential energy is established. Synaptic weight is directly proportional to the difference between the baseline potential energy and the suprathreshold potential energy and is constrained by the maximum energy supply. Results show that the energy constraint improves the performance of synaptic plasticity and avoids setting the hard boundary of synaptic weights. With the same set of model parameters, our model can reproduce several classical experiments in homo- and heterosynaptic plasticity. The proposed model can explain the interaction mechanism of Hebbian and homeostatic plasticity at the cellular level. Homeostatic synaptic plasticity at different time scales coexists. Homeostatic plasticity operating on a long time scale is caused by heterosynaptic plasticity and, on the same time scale as Hebbian synaptic plasticity, is caused by the constraint of energy supply.

Published

2022

39. Neuroprotective effects of combined trimetazidine and progesterone on cerebral reperfusion injury

Author

Vipin Dhote, Avinash Singh Mandloi, Pradeep Kumar Singour, Manisha Kawadkar, Aditya Ganeshpurkar, and Manoj P. Jadhav

Subjects

Apoptosis, Oxidative stress, Ischemia-reperfusion, Molecular docking, Myeloperoxidase, Metabolic energy, Therapeutics. Pharmacology, RM1-950

Abstract

Cerebral ischemia-reperfusion injury induces multi-dimensional damage to neuronal cells through exacerbation of critical protective mechanisms.Targeting more than one mechanism simultaneously namely, inflammatory responses and metabolic energy homeostasis could provide additional benefits to restrict or manage cerebral injury. Being proven neuroprotective agents both, progesterone (PG) and trimetazidine (TMZ) has the potential to add on the individual therapeutic outcomes.We hypothesized the simultaneous administration of PG and TMZ could complement each other to synergize, or at least enhance neuroprotection in reperfusion injury. We investigated the combination of PG and TMZ on middle cerebral artery occlusion (MCAO) induced cerebral reperfusion injury in rats. Molecular docking on targets of energy homeostasis and apoptosis assessed the initial viability of PG and TMZ for neuroprotection. Animal experimentation with MCA induced ischemia-reperfusion (I/R) injury in rats was performed on five randomized groups.Sham operated control group received vehicle (saline) while the other four I-R groups were pre-treated with vehicle (saline), PG (8 ​mg/kg), TMZ treated (25 ​mg/kg), and PG ​+ ​TMZ (8 and 25 ​mg/kg) for 7 days by intraperitoneal route. Neurological deficit, infarct volume, and oxidative stress were evaluated to assess the extent of injury in rats. Inflammatory reactivity and apoptotic activity were determined with alterations in myeloperoxidase (MPO) activity, blood-brain barrier (BBB) permeability, and DNA fragments. Reperfusion injury inflicted cerebral infarct, neurological deficit, and shattered BBB integrity.The combination treatment of PG and TMZ restricted cellular damage indicated by significant (p ​

Published

2022

40. Postsynaptic Potential Energy as Determinant of Synaptic Plasticity.

Author

Chen, Huanwen, Xie, Lijuan, Wang, Yijun, and Zhang, Hang

Subjects

POSTSYNAPTIC potential, NEUROPLASTICITY, POTENTIAL energy, POWER resources

Abstract

Metabolic energy can be used as a unifying principle to control neuronal activity. However, whether and how metabolic energy alone can determine the outcome of synaptic plasticity remains unclear. This study proposes a computational model of synaptic plasticity that is completely determined by energy. A simple quantitative relationship between synaptic plasticity and postsynaptic potential energy is established. Synaptic weight is directly proportional to the difference between the baseline potential energy and the suprathreshold potential energy and is constrained by the maximum energy supply. Results show that the energy constraint improves the performance of synaptic plasticity and avoids setting the hard boundary of synaptic weights. With the same set of model parameters, our model can reproduce several classical experiments in homo- and heterosynaptic plasticity. The proposed model can explain the interaction mechanism of Hebbian and homeostatic plasticity at the cellular level. Homeostatic synaptic plasticity at different time scales coexists. Homeostatic plasticity operating on a long time scale is caused by heterosynaptic plasticity and, on the same time scale as Hebbian synaptic plasticity, is caused by the constraint of energy supply. [ABSTRACT FROM AUTHOR]

Published

2022

41. SIMULATION OF PIG PRODUCTIVITY UNDER FEED CONSUMPTION.

Author

KONOVALOV, Vladimir, CHUPSHEV, Alexey, TERYUSHKOV, Vyacheslav, and DONTSOVA, Marina

Subjects

*WEIGHT gain, *WAREHOUSES, *SWINE, *ENERGY consumption, *LABOR theory of value

Abstract

The aim of the research is to develop a computer model that makes it possible to predict the productivity of pigs based on the data on their consumption of the exchange energy of feed and the amount of feed loss during storage and operation of technological equipment. Based on the known results, regression relationships have been established between the value of the exchange energy of the given feed and the average daily gain in the live weight of animals, as well as the cost of feed per kilogram of gain. Due to the loss of feed nutrients and the feed itself during the storage of feed in warehouses, during preparation and delivery to animals, as well as throwing away part of the feed when it is eaten by animals, the amount of nutrients consumed by the animal and the accounting of feed consumption do not match. [ABSTRACT FROM AUTHOR]

Published

2022

42. Using Experimentally Calibrated Regularized Stokeslets to Assess Bacterial Flagellar Motility Near a Surface.

Author

Shindell, Orrin, Hoa Nguyen, Coltharp, Nicholas, Healy, Frank, and Rodenborn, Bruce

Subjects

BACTERIAL flagella, HYDRODYNAMICS, FLUID flow, FLUID dynamics, COMPUTATIONAL fluid dynamics

Abstract

The presence of a nearby boundary is likely to be important in the life cycle and evolution of motile flagellate bacteria. This has led many authors to employ numerical simulations to model nearsurface bacterial motion and compute hydrodynamic boundary effects. A common choice has been the method of images for regularized Stokeslets (MIRS); however, the method requires discretization sizes and regularization parameters that are not specified by any theory. To determine appropriate regularization parameters for given discretization choices in MIRS, we conducted dynamically similar macroscopic experiments and fit the simulations to the data. In the experiments, we measured the torque on cylinders and helices of different wavelengths as they rotated in a viscous fluid at various distances to a boundary. We found that differences between experiments and optimized simulations were less than 5% when using surface discretizations for cylinders and centerline discretizations for helices. Having determined optimal regularization parameters, we used MIRS to simulate an idealized free-swimming bacterium constructed of a cylindrical cell body and a helical flagellum moving near a boundary. We assessed the swimming performance of many bacterial morphologies by computing swimming speed, motor rotation rate, Purcell's propulsive efficiency, energy cost per swimming distance, and a new metabolic energy cost defined to be the energy cost per body mass per swimming distance. All five measures predicted that the optimal flagellar wavelength is eight times the helical radius independently of body size and surface proximity. Although the measures disagreed on the optimal body size, they all predicted that body size is an important factor in the energy cost of bacterial motility near and far from a surface. [ABSTRACT FROM AUTHOR]

Published

2021

43. Eligibility criteria for joint ensilage of maize and yellow lupine on poorly productive lands of the Upper Volga region.

Author

Shevchenko, Viktor Alexandrovich, Soloviev, Alexey Malakhovich, and Popova, Natalya Pavlovna

Subjects

LUPINUS luteus, AGRICULTURAL industries, ANIMAL culture, AMINO acid analysis

Abstract

In the modern conditions of RF agro-industrial complex development, the transfer of animal husbandry to an industrial basis is possible only with high-grade vegetable protein production increase. Silage of the aboveground mass of pure corn during all phases of plant growth and development does not provide the content of nutrients in the feed unit according to the zootechnical requirements. Therefore, to optimize the finished feed in terms of the carbohydrate-protein ratio, green mass of legumes should be added to its composition during the preparation of silage from corn. The selection of the legume component should be carried out taking into account the following main criteria: coincidence with corn by the growing season duration, the same attitude to soil and climatic resources and insolation conditions, high provision of the legume component with digestible protein, dry matter, starch and exchange energy during the ensiling period. It has been established that the joint ensiling of corn with yellow lupine is expedient when the corn is in waxy ripeness, and the lupine is in the phase of shiny beans with the component ratio of 55:45%. In this case, the content of digestible protein in 1 feed unit of finished silage is 100.2 g at reliable feed supply with both irreplaceable (36.0 g) and critical (7.2 g) amino acids. [ABSTRACT FROM AUTHOR]

Published

2021

44. Variability of Microbial Particulate ATP Concentrations in Subeuphotic Microbes Due to Underlying Metabolic Strategies in the South Pacific Ocean

Author

Kaycie B. Lanpher and Kimberly J. Popendorf

Subjects

adenosine triphosphate, phosphorus, South Pacific, phytoplankton, bacteria, metabolic energy, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Adenosine triphosphate (ATP) is the primary energy storage molecule in metabolic pathways. It is common in marine studies to use particulate ATP (PATP) concentrations as representative of microbial biomass. However, there is growing evidence from culture studies, models, and transcriptional data that PATP concentration varies across microbes and conditions, thus compromising interpretations in environmental settings. Importantly, there is a lack of open ocean studies assessing variations in PATP concentrations and thus a deficiency of information on the key biogeochemical drivers for variability in microbial PATP independent of biomass. In sampling the U.S. GO-SHIP P06E zonal transect (32.5°S) across the eastern South Pacific, from the subtropical gyre to the upwelling waters off Chile, we conducted the first comprehensive transect survey quantifying PATP. PATP concentrations increased toward the upwelling region of the transect, but varied vertically when normalized against three measures of biomass: particulate phosphorus, microbial abundance, and microbial biovolume. Generally, greater biomass-normalized PATP concentrations were observed below the deep chlorophyll maximum. Subdividing the P06E transect into four biogeochemical regimes highlighted distinct metabolic strategies used by microbes. Between these regimes, we found PATP concentrations were representative of biomass in upper surface waters. However, below the deep chlorophyll maximum we observed higher biomass normalized PATP concentrations that we hypothesize were due to less availability of energy sources in those subeuphotic zone waters and abundances of chemoautotrophs in the microbial community. This finding suggests that stored energy was more important for these deeper microbes.

Published

2021

45. Memory retention in pyramidal neurons: a unified model of energy-based homo and heterosynaptic plasticity with homeostasis.

Author

Chen, Huanwen, Xie, Lijuan, Wang, Yijun, and Zhang, Hang

Abstract

The brain can learn new tasks without forgetting old ones. This memory retention is closely associated with the long-term stability of synaptic strength. To understand the capacity of pyramidal neurons to preserve memory under different tasks, we established a plasticity model based on the postsynaptic membrane energy state, in which the change in synaptic strength depends on the difference between the energy state after stimulation and the resting energy state. If the post-stimulation energy state is higher than the resting energy state, then synaptic depression occurs. On the contrary, the synapse is strengthened. Our model unifies homo- and heterosynaptic plasticity and can reproduce synaptic plasticity observed in multiple experiments, such as spike-timing-dependent plasticity, and cooperative plasticity with few and common parameters. Based on the proposed plasticity model, we conducted a simulation study on how the activation patterns of dendritic branches by different tasks affect the synaptic connection strength of pyramidal neurons. We further investigate the formation mechanism by which different tasks activate different dendritic branches. Simulation results show that compare to the classic plasticity model, the plasticity model we proposed can achieve a better spatial separation of different branches activated by different tasks in pyramidal neurons, which deepens our insight into the memory retention mechanism of brains. [ABSTRACT FROM AUTHOR]

Published

2021

46. Selenium supplementation improves nutrient intake and digestibility, and mitigates CH4 emissions from sheep grazed on the mixed pasture of alfalfa and tall fescue.

Author

Yueting Pan, Yongjia Wang, Shanning Lou, Wanapat, Metha, Zhaofeng Wang, Wanhe Zhu, and Fujiang Hou

Subjects

*NUTRITIONAL status, *TALL fescue, *GRAZING, *ALFALFA, *PASTURES, *SELENIUM, *SHEEP breeding

Abstract

Low selenium (Se) in soil and forage can adversely affect on the quality of animalderived foods, and hence on human health. Lambs grazed on mixed pastures of alfalfa (Medicago sativa) and tall fescue (Festuca arundinacea) were supplemented with five levels of Se [0, 3, 6, 9 and 12 µg/kg body weight (BW)]. The intake of dry matter (DM) and organic matter (OM) varied with the level of Se supplementation, with a peak at 6 µg Se per kg BW (p = 0.05). Gross energy (GE) intake, digestive energy (DE) intake and metabolic energy (ME) intake were higher at 6 µg Se per kg BW than at other Se levels (p < 0.01); in addition, methane energy (CH4-E) output was lower at 6 µg Se per kg BW. Supplementation with Se significantly increased nitrogen (N) intake, faecal N and urine N, for which the peak values were 20.2 g N/, 5.62 g N/day and 7.92 g N/day, respectively, at 6 µg Se per kg BW. Se intake, blood Se, faecal Se, urine Se and retained Se were negatively correlated with forage crude protein (CP) content (p < 0.001) but were positively correlated with the content of neutral detergent fibre (NDF) (p < 0.001) and acid detergent fibre (ADF) (p < 0.001). Thus, we recommend the addition of 6 µg Se per kg BW to sheep grazed on pastures in regions with low soil Se. [ABSTRACT FROM AUTHOR]

Published

2021

47. Regulating Metabolic Energy Among Joints During Human Walking Using a Multiarticular Unpowered Exoskeleton.

Author

Zhou, Tiancheng, Xiong, Caihua, Zhang, Juanjuan, Chen, Wenbin, and Huang, Xiaolin

Subjects

KNEE, JOINTS (Anatomy), KNEE joint, ROBOTIC exoskeletons, MECHANICAL energy, ENERGY transfer

Abstract

Researchers have found that the walking economy can be enhanced by recycling ankle metabolic energy using an unpowered ankle exoskeleton. However, how to regulate multiarticular energy to enhance the overall energy efficiency of humans during walking remains a challenging problem, as multiarticular passive assistance is more likely to interfere with the human body’s natural biomechanics. Here we show that the metabolic energy of the hip and knee musculature can be regulated to a more energy-effective direction using a multiarticular unpowered exoskeleton that recycles negative mechanical energy of the knee joint in the late swing phase and transfers the stored energy to assist the hip extensors in performing positive mechanical work in the stance phase. The biarticular spring-clutch mechanism of the exoskeleton performs a complementary energy recycling and energy transfer function for hip and knee musculature. Through the phased regulation of the hip and knee metabolic energy, the target muscle activities decreased during the whole assistive period of the exoskeleton, which was the direct reason for 8.6 ± 1.5% (mean ± s.e.m) reduction in metabolic rate compared with that of walking without the exoskeleton. The proposed unpowered exoskeleton enhanced the user’s multiarticular energy efficiency, which equals improving musculoskeletal structure by adding a complementary loop for efficient energy recycling and energy transfer. [ABSTRACT FROM AUTHOR]

Published

2021

48. Biomass production, water use effi ciency and nutritional value parameters of sorghum (Sorghum bicolor L.) genotypes as aff ected by seed hydro-priming and transplanting.

Author

Mirahki, Isaac, Ardakani, Mohammad Reza, Golzardi, Farid, Paknejad, Farzad, and Mahrokh, Ali

Subjects

SORGHUM, BIOMASS production, WATER use, NUTRITIONAL value, TRANSPLANTATION of organs, tissues, etc., GENOTYPES

Abstract

To investigate hydropriming and transplanting effect on biomass and nutritional content of forage sorghum, a two-year fi eld experiment was conducted in the semiarid condition of Iran. Experimental factor consisted of planting dates (July-1st, July-11th, July-23rd, August-1st) in the main plot and the factorial combination of planting methods (direct planting, hydropriming, transplanting) with cultivars (Speedfeed and Pegah) in the subplot. Planting date postponement from 1st of July to 10th of July, 23rd of July, and 1st of August, respectively, caused 16.1, 32.5 and 47.2% reduction in dry matter yield (DMY) and 7.4, 20.2, and 35.1% reduction in water use effi ciency of DMY production (WUEDMY). Hydropriming and transplanting produced 23.6 and 22.4% more DMY, 24.5 and 21.8% more WUEDMY, 24 and 16.3% more crude protein yield, 22.7 and 20.9% more digestible dry matter (DDM) yield, and 22.2 and 20.1% more metabolic energy (ME) yield, compared to the direct planting. Hydropriming compared to direct planting caused 29% increase in plant growth rate and utilized growing season more productively than transplanting for DMY production. Conclusively, hydropriming and transplanting compensated for delay in planting through enhancing and accelerating germination and plant development but, applying hydropriming on Speedfeed and planting in July-1st caused the highest DMY, WUEDMY and the yield of nutritive parameters. [ABSTRACT FROM AUTHOR]

Published

2021

49. Energy level as a theranostic factor for successful therapy of tissue injuries with polyphosphate: the triad metabolic energy - mechanical energy - heat.

Author

Müller WEG, Schepler H, Neufurth M, Dobmeyer R, Batel R, Schröder HC, and Wang X

Subjects

Humans, Energy Metabolism drug effects, Hot Temperature, Alkaline Phosphatase metabolism, Adenylate Kinase metabolism, Male, Polyphosphates metabolism, Polyphosphates pharmacology, Wound Healing drug effects, Adenosine Triphosphate metabolism

Abstract

Rationale: Tissue regeneration of skin and bone is an energy-intensive, ATP-consuming process that, if impaired, can lead to the development of chronic clinical pictures. ATP levels in the extracellular space including the exudate of wounds, especially chronic wounds, are low. This deficiency can be compensated by inorganic polyphosphate (polyP) supplied via the blood platelets to the regenerating site. Methods: The contribution of the different forms of energy derived from polyP (metabolic energy, mechanical energy and heat) to regeneration processes was dissected and studied both in vitro and in patients. ATP is generated metabolically during the enzymatic cleavage of the energy-rich anhydride bonds between the phosphate units of polyP, involving the two enzymes alkaline phosphatase (ALP) and adenylate kinase (ADK). Exogenous polyP was administered after incorporation into compressed collagen or hydrogel wound coverages to evaluate its regenerative activity for chronic wound healing. Results: In a proof-of-concept study, fast healing of chronic wounds was achieved with the embedded polyP, supporting the crucial regeneration-promoting activity of ATP. In the presence of Ca 2+ in the wound exudate, polyP undergoes a coacervation process leading to a conversion of fibroblasts into myofibroblasts, a crucial step supporting cell migration during regenerative tissue repair. During coacervation, a switch from an endothermic to an exothermic, heat-generating process occurs, reflecting a shift from an entropically- to an enthalpically-driven thermodynamic reaction. In addition, mechanical forces cause the appearance of turbulent flows and vortices during liquid-liquid phase separation. These mechanical forces orient the cellular and mineralic (hydroxyapatite crystallite) components, as shown using mineralizing SaOS-2 cells as a model. Conclusion: Here we introduce the energetic triad: metabolic energy (ATP), thermal energy and mechanical energy as a novel theranostic biomarker, which contributes essentially to a successful application of polyP for regeneration processes., Competing Interests: Competing Interests: The authors have declared that no competing interest exists., (© The author(s).)

Published

2024

50. Polyphosphate Nanoparticles: Balancing Energy Requirements in Tissue Regeneration Processes.

Author

Müller WEG, Neufurth M, Wang S, Schröder HC, and Wang X

Subjects

Humans, Animals, Wound Healing drug effects, Polyphosphates chemistry, Nanoparticles chemistry, Regeneration drug effects

Abstract

Nanoparticles of a particular, evolutionarily old inorganic polymer found across the biological kingdoms have attracted increasing interest in recent years not only because of their crucial role in metabolism but also their potential medical applicability: it is inorganic polyphosphate (polyP). This ubiquitous linear polymer is composed of 10-1000 phosphate residues linked by high-energy anhydride bonds. PolyP causes induction of gene activity, provides phosphate for bone mineralization, and serves as an energy supplier through enzymatic cleavage of its acid anhydride bonds and subsequent ATP formation. The biomedical breakthrough of polyP came with the development of a successful fabrication process, in depot form, as Ca- or Mg-polyP nanoparticles, or as the directly effective polymer, as soluble Na-polyP, for regenerative repair and healing processes, especially in tissue areas with insufficient blood supply. Physiologically, the platelets are the main vehicles for polyP nanoparticles in the circulating blood. To be biomedically active, these particles undergo coacervation. This review provides an overview of the properties of polyP and polyP nanoparticles for applications in the regeneration and repair of bone, cartilage, and skin. In addition to studies on animal models, the first successful proof-of-concept studies on humans for the healing of chronic wounds are outlined., (© 2024 The Authors. Small published by Wiley‐VCH GmbH.)

Published

2024