Three experiments were conducted to examine the changes of N utilization after early weaning in calves. In Exp. 1, eight male Holstein calves were weaned at 5 wk of age and N balance was determined on the 1st, 6th, 11th, and 19th wk after weaning. In Exp. 2, to examine the effect of weaning age on N utilization, three calves were weaned at 5 wk of age and the other three at 11 wk of age. The N balance of both groups was determined on the same weeks of age (i.e., the 1st, 6th, 8th, and 11th wk after weaning in the earlier-weaned group). In Exp. 3, to examine the effect of a higher content of CP (17.9%) and TDN (75%) in concentrate on N utilization, three calves were weaned at 6 wk of age and the N balance was determined on the 1st, 5th, 10th, and 20th wk after weaning. The intake of concentrate was low in wk 1 but rapidly increased in the next 5 wk (1.74 and 1.72 times in Exp. 1 and 2, respectively). Nevertheless, the TDN intake tended to be lower in calves weaned early just after weaning compared with that in suckling calves in Exp. 2. The apparent N digestibility steadily increased with age and reached a plateau on wk 11 and 6 after weaning in Exp. 1 and 2, respectively. Conversely, the ratio of N retained:N absorbed tended to be high up to wk 6 after weaning and thereafter decreased, leading to a transient high N retained:N intake ratio on wk 6 after weaning.(ABSTRACT TRUNCATED AT 250 WORDS)
Duodenal flow of microbial N (MN) was estimated from urinary purine derivatives to examine age-related changes in MN in male Holstein calves. In Exp. 1, endogenous purine derivatives were determined by measurement of purine derivatives in five calves fed nucleic acid-free milk replacer alone. In Exp. 2, the ratio of urinary excretion as purine derivatives to purines administered via the reticular groove was determined in three calves weaned at 5 wk of age. As a result, endogenous purine derivatives were constant at 705 mumol/(kg BW.75.d), irrespective of the amount of milk replacer, and the ratios of purine derivatives to duodenal purines were estimated to be .549, .276, .363, and .466 at wk 1, 6, 11, and 20 after weaning, respectively. Using these variables and urinary purine derivatives, the duodenal flow of MN was estimated and its relation with N balance was examined in 15 calves weaned at 5 wk of age in Exp. 3. Digestible OM was lower at wk 1 after weaning and transiently higher at wk 6. The percentage of N absorbed to N intake, N absorbed, N retained, and estimated duodenal MN were also lower at wk 1, and rapidly increased for the first 6 wk. These findings suggest that the increases in N absorbed and N retained for the first 6 wk after weaning were due to augmentation of duodenal flow of MN and dietary N that escaped ruminal degradation.
With rapid aging of the world’s population, the demand for research, for a better understanding of aging and aging-related disorders, is increasing. Ideally, such research should be conducted on human subjects. However, due to ethical considerations, animals such as rodents and monkeys are used as alternatives. Among these alternative models, non-human primates are preferred because of their similarities with humans. The small South American common marmoset (Callithrix jacchus) may offer several advantages over other non-human primates in terms of its smaller size, shorter life-span, and dental anatomy identical to humans. The purpose of this study was to determine the viability of using the marmoset as a human oral disease model. We collected saliva samples from eight marmosets and eight human subjects. Prokaryotic DNA was extracted from the saliva samples, and 16S bacterial rRNA gene sequencing was performed on each of the samples. Our results indicated that the types of oral microbiomes detected among human and marmoset samples were nearly indistinguishable. In contrast, the oral microbiomes of our human and marmoset subjects were distinctly different from those reported for rats and dogs, which are currently popular research animals. The oral microbiomes of marmosets showed greater diversity than those of humans. However, the oral microbiota of marmosets exhibited less variation than those of humans, which may be attributed to the fact that the marmoset subjects were kept in a controlled environment with identical lifestyles. The characteristics of its oral microbiota, combined with other technical advantages, suggest that the marmoset may provide the best animal model thus far for the study of oral health. This study characterized the oral microbes of the marmoset, thereby providing information to support future application of the marmoset as a model for age-related oral disease.
The current study was conducted to examine the relationship between MN production and N balance related to age in calves weaned at 5 wk of age. Some of the daa in exp. -1 were included in a previous communication (Funaba et al. 1994). MATERIALS AND METHODS Animals, Feeding and TrialsTwelve male Holstein calves were used in two experiments.Care of animals before and during trials was described previously (Funaba et al. 1994
Our previous study revealed that weaning of calves aged 5 wk (early weaning) resulted in transient nutritional restriction with subsequent repletion. The present study was conducted to examine age-related changes in nitrogen balance, bone growth and myofibrillar protein degradation after early weaning in calves. At weaning, calves used in Experiment 2 had more severe nutritional restriction than those used in Experiment 1 due to a shorter duration of the suckling period (3 vs. 4 wk), a lesser amount of daily milk replacer (500 vs. 600 g) and a shorter period when given solid feed (for the last week vs. throughout the suckling period). In both experiments, nitrogen and calcium retentions were lower at weaning and transiently increased at 6 wk after weaning. However, detrimental effects on nitrogen and calcium retention immediately after weaning were more evident, and compensatory increases of nitrogen and calcium retention after weaning were more pronounced and continuous in Experiment 2 than in Experiment 1. The changes in plasma intact osteocalcin concentrations and urinary hydroxyproline excretion after weaning were similar to those for nitrogen and calcium retention in Experiment 2, whereas fractional degradation rate of myofibrillar protein was constant throughout the study in both experiments. These results suggest that the extent of nutritional restriction at weaning affects subsequent enhanced utilization of nitrogen and calcium, and that age-related changes in nitrogen retention after early weaning partly reflect changes in bone growth regulated by both forming and resorbing activities, independent of myofibrillar protein degradation.
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