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红腹锦鸡胚胎期羽毛芽发育的研究 《畜牧与饲料科学》2016,37(2):1-1
旨在了解红腹锦鸡胚胎期羽毛毛囊的组织结构及毛囊形态发生的变化过程,为研究红腹锦鸡羽毛毛囊发育的分子调控机理奠定组织学基础。分别对5、7、8、9、10、11、13、16、18日胚龄的红腹锦鸡胚胎发育情况进行实体观察;采集上述胚龄的红腹锦鸡背部皮肤,制作石蜡切片并进行HE染色,在显微镜下观察毛囊形态结构并拍照记录。红腹锦鸡胚胎于9日胚龄时羽毛芽开始发育,可以观察到色素在毛囊内的沉积,16日胚龄时毛囊发育基本完成,体表覆盖羽毛。该研究为进一步阐明红腹锦鸡羽毛发育的分子机制奠定了组织学基础。 相似文献
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鸡体表羽毛形态是反映鸡品种特征、发育和健康的重要表征之一,受到生产和消费者的广泛关注.本文从羽毛的生长更替及其毛囊的发生发育两个方面进行综述,为深入研究羽毛生长发育机制提供参考. 相似文献
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EDA基因及其信号通路在动物皮肤毛囊发育中作用研究进展 总被引:1,自引:0,他引:1
EDA基因的突变会引起多种外胚层附属物的减少或是缺乏,像头发、牙齿、汗腺、皮脂腺和乳腺等外胚层附属物的生长发育,都需要EDA的参与。EDA信号通路在多种类型毛囊的发生、毛干的形成和皮脂腺的形态发生中发挥作用,它可控制胚胎上皮细胞的命运,调控毛囊细胞的分化过程。作者简述了EDA基因及其信号通路与动物毛囊发育的关系,介绍了EDA基因的功能和蛋白分子结构,以及它主要的两种转录体EDA1和EDA2的功能与作用机制,EDA1-EDAR系统在皮肤衍生结构的发育中发挥主要作用,EDA1和EDAR的突变均会导致HED。阐述了EDA基因信号通路调控毛囊组织生长发育机理以及与多个信号通路的关联,EDA信号可控制毛囊生长期到退行期的转换,对毛囊循环周期中退行期毛囊角质细胞的细胞凋亡起调控作用。EDA-EDAR系统是对皮肤附属器官发育有重要作用的Wnt信号通路的一个重要的效应器,其紧接着出现在Wnt诱导信号的下游。它依靠下游的NF-κB通路的活动来调控靶基因,通过刺激NF-κB调整Wnt、SHH、FGF、和TGF-β信号通路的效应器和抑制因子的转录来发挥作用,调控上皮细胞和间充质细胞还包括组织内的相互作用。结论认为EDA信号通路参与毛囊细胞的发育与分化调控,对动物毛囊生长发育起重要影响作用。 相似文献
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BMP家族成员在毛囊生长发育方面的研究 总被引:3,自引:0,他引:3
BMPs是一组具有类似结构的高度保守的功能蛋白,具有调控毛囊生长发育、胚胎发育、骨骼生长等方面作用,本文就其在毛囊发育过程中的调控作用进行简单阐述。 相似文献
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Describing the growth and molt of modern domestic turkey (Meleagris gallopavo) primary wing feathers
Emily M Leishman Nienke van Staaveren Don R McIntyre Jeff Mohr Benjamin J Wood Christine F Baes Alexandra Harlander-Matauschek 《Journal of animal science》2020,98(12)
The use of feathers as noninvasive physiological measurements of biomarkers in poultry research is expanding. Feather molting patterns and growth rates, however, are not well described in domestic poultry. These parameters could influence the measurement of these biomarkers. Therefore, the objective of this study was to describe the juvenile primary feather molting patterns and feather growth rates for domestic turkeys. The 10 primary wing feathers of 48 female turkeys were measured weekly from week 1 (0 d of age) to week 20. Feathers were manually measured, and the presence or absence of each primary feather was recorded weekly. Generalized linear mixed models were used to investigate if feather growth differed between the primary feathers. The molting of the juvenile primary feathers followed a typical descending pattern starting with P1 (5 wk of age), while P9 and P10 had not molted by the end of the study (20 wk of age). The average feather growth rate was 2.4 cm/wk, although there was a significant difference between the 10 primary feathers (P < 0.0001, 2.1 to 2.8 cm/wk). Over time, feather growth followed a pattern where the growth rate reaches a peak and then declines until the feather is molted. The results of this study provide a critical update of patterns of molting and feather growth in primary wing feathers of modern turkeys. This can have implications for the interpretation of physiological biomarkers, such as the longitudinal deposition of corticosterone, in the feathers of domestic turkeys. 相似文献
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Bright A 《British poultry science》2007,48(3):253-263
1. This study investigated whether feather damage due to feather pecking and bird behaviour were influenced by plumage colour in Oakham Blue laying hens (black, white, grey colour variants). The reflectance properties of feathers and spectral composition of light environments experienced by the hens were also examined. 2. Nine hundred and seventy-nine birds were inspected and scored for feather damage; 10.5 h of video recordings were examined to record feather pecking and bird behaviour. Feathers and light environments were measured using a USB-2000 spectrometer and DH-2000-CAL-DTH lamp. 3. Oakham Blue birds with white plumage had less feather damage due to feather pecking than black or grey birds. There was more severe feather pecking in the mornings than in the afternoon. White birds feather pecked severely more than black or grey birds, although there were no other behavioural differences between plumage colours. 4. White feathers reflected at a higher intensity than black or grey feathers. However, black and grey feather spectra were relatively flat and the contribution of UV wavelengths to plumage reflection was proportionally greater than that for white feathers. 5. Light intensity inside a poultry house was 100 x (UW/cm2/nm) less than on the range and there was low or no UV reflectance. Under the dim, artificial lights inside a poultry house, Oakham Blue hens with black and grey feathers may be less visible to conspecifics than white birds because their plumage reflects at a lower intensity. Furthermore, the lack of available UV light inside vs. outside and the higher contribution of UV reflectance to black and grey plumage may make black and grey birds appear more different inside the house than white birds. It is possible that this novel/unusual appearance may make black or grey Oakham Blue hens more susceptible to feather pecking. 相似文献
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1. The effect of the presence of loose feathers (on the floor) on the behaviour and plumage condition of laying hens (Lohmann Silver, LS) was studied during the rearing and laying periods. 2. From one day old, 60 birds in each of 4 straw-bedded pens (n = 240 in total) with 6.5 birds/m(2) were either kept under conventional rearing and management conditions (CT: control group with feathers on the floor; n = 120) or in pens from which the feathers were collected from the floor 4 times/week (FR: feathers removed; n = 120). Fifty birds from each of these 4 groups (n = 200 in total) were randomly selected at the age of 16 weeks and allocated to 4 identical pens in a poultry layer house (PH; with perches and 1/3 slatted floor) with access to an outside area (winter garden, WG) at a stocking density of 6 birds/m(2) in both PH and WG. 3. Observations on feather pecking and other behaviours (feeding, drinking, preening, standing, sitting, foraging, moving and dust bathing) were carried out at 8 ages: 6, 10, 15 (rearing period), 20, 25, 30, 35 and 40 weeks (laying period). Feather scoring was carried out at 15, 32 and 39 weeks of age. 4. There were no differences in feather pecking rates, forms (gentle, severe and aggressive pecks) as well as in the plumage condition between groups at the end of the rearing period. 5. Birds in the FR group exhibited lower rates and less severe feather pecking during the laying period. Accordingly, birds in the control group had worse feather condition at 32 and 39 weeks of age. Feather pecking rates within groups were, in general, greater in the afternoon compared to the morning periods. Birds in the control group were more active in walking. 6. Wings, rump, tail and back were the main targets for feather pecking. The majority of feather pecking occurred on the floor (66%) followed by feeding area (26%), perches (4%) and slats (4%). 7. Our results suggest that loose feathers on the floor may play an important role in the development and severity of feather pecking behaviour in laying hens and support the hypothesis (McKeegan and Savory, 1999) that feather pecking can be viewed as redirected foraging behaviour. 相似文献
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试验通过开展快慢羽群体的鉴定,并对比其在羽毛发育、生长和繁殖性能方面的差异,旨在为北京油鸡种鸡选育和科学养殖提供数据支持。选用北京油鸡纯系公鸡,出雏时,按照主翼羽与覆主翼羽的羽长差值将其分为快慢羽亚群,其中快羽包括K1(主翼羽长于覆主翼羽>5 mm)和K2(主翼羽长于覆主翼羽2~5 mm),慢羽包括M1(主翼羽与覆主翼羽等长或主翼羽长于覆主翼羽<2 mm)和M2(主翼羽短于覆主翼羽)和M3(主翼羽未长出)。1~7日龄每隔1 d测量1次主翼羽与覆主翼羽羽长,7~42日龄每隔1周测量1次;1~8周龄每周测量体重,9~18周龄每隔1周测定体重;10周龄时,观测公鸡全身羽毛发育情况;47周龄时,测定公鸡常规精液品质性状、精子动力学参数、受精率及孵化率。结果显示,快羽公鸡占北京油鸡公鸡总数的11.60%,慢羽占88.40%,慢羽又以M2型为主,有少量M1型和M3型。育雏育成期(1~18周)北京油鸡快慢羽公鸡各周龄体重均无显著差异(P>0.05)。在育雏育成期,慢羽公鸡主翼羽和覆主翼羽生长均慢于快羽公鸡。其10周龄时,背部和腿部羽毛生长完全的鸡的比例仅为44%,且不同类型的慢羽公鸡的比例也不一,其中等长型或微长型慢羽最高,超过90%,未长出型慢羽最低,仅为17%左右。47周龄时快羽鸡和慢羽鸡的常规精液品质无差异,但是快羽公鸡精子直线性显著高于慢羽鸡(P<0.05),直线速率高于慢羽公鸡(P=0.06),快羽北京油鸡公鸡受精率显著高于慢羽公鸡(P<0.05),且入孵蛋孵化率和受精蛋孵化率有高于慢羽公鸡的趋势,但差异不显著(P>0.05)。本研究结果表明,快慢羽北京油鸡公鸡的羽毛生长和繁殖性能有一定差异,需要加强慢羽公鸡羽毛发育缓慢原因和鉴定方法的研究,也需加强慢羽公鸡精液品质选育。 相似文献
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Hair and feathers are composed of keratin and are indigestible, inalimental and unpalatable for carnivores. However, carnivores often ingest hair and feathers during feeding or when grooming. We hypothesized that ingestion of hair and feathers changes species diversity and relative abundance of bacteria in the gut of carnivores. To test this hypothesis, we added disinfected poultry down feathers to the normal diet of captive Arctic foxes (Alopex lagopus). We then used fluorescently labeled terminal restriction fragments (T‐RFs) to examine changes in fecal bacterial diversity and abundance. The results showed that the number of bacterial species increased significantly after feather ingestion, but that total abundance was unchanged. This demonstrated that addition of disinfected feathers to the diet stimulated increased production among less abundant bacteria, resulting in a balancing of relative abundance of different bacterial species, or that some newly‐ingested microbial species would colonize the gut because a suitable microhabitat had become available. This implies that the overall production of bacterial metabolites would be made up of a greater range of substances after feather ingestion. On one hand, the host's immune response would be more diverse, increasing the capacity of the immune system to regulate gut microflora. On the other hand, the animal's physiological performance would also be affected. For wild animals, such altered physiological traits would be subjected to natural selection, and, hence, persistent geographic differences in the character of ingested feathers or fur would drive speciation. 相似文献
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1. Preen oil derived from the preen gland has previously been shown to differ in its composition between birds of different ages, sex and diet. As a part of a larger study on preening behaviour and its components, the relative percentages of fatty acids in preen oil were examined in laying hens that differed in age, beak trimmed status, feather pecking status (pecker and pecked) and method of sampling (either direct from the preen gland or from lipid extracted from feathers). 2. Five experiments are described. Fatty acids extracted from lipid were analysed by gas chromatography (GC). Fatty acid composition was affected by age, by whether or not a bird was feather pecked (but not if it was a feather pecker) and by lipid source. 3. Changes in preen oil composition with age (shown here) may be due to changes in circulating concentrations of hormones. Differences in preen oil composition between feather pecked and non-pecked birds may influence plumage odour and therefore taste, making the plumage of some birds more attractive to pecking than others. 4. The proportions of some fatty acids derived from feathers differed to those extracted from the preen gland. Lipid found on feathers is most likely a combination of that from the preen gland and from sebaceous secretions from the skin. 相似文献
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Abnormal behaviors in commercial poultry, including feather pulling and pica, have been known to occur when birds are exposed to an unfamiliar environment. We report here the development of crop impactions resulting from feather ball formation. Twelve specific-pathogen-free (SPF) chickens were placed in one of three cages housed among a commercial layer flock in three different buildings on a farm site. Three weeks after placement, the birds were removed from the cages and given a physical exam. Chickens were thin, and one bird in each of the three caged groups had a palpable mass at the level of the thoracic inlet. At necropsy, a mass was noted in the crop. Upon further dissection, a wet, foul-smelling mass consisting of feathers and feed debris was recovered. Results from our case indicate that unfamiliar surroundings can cause pica in birds. Hence, avian researchers and veterinarians planning to introduce new birds into a flock, i.e., SPF birds, should consider the birds' previous environmental conditions prior to placement because sudden placement in unfamiliar surroundings can result in pica. 相似文献
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The pathology of psittacine beak and feather disease 总被引:2,自引:0,他引:2
Psittacine beak and feather disease is characterised by loss of feathers, abnormally shaped feathers and overgrowth and irregularity of the surface of the beak. The disease occurs in a number of psittacine species including the Sulphur-crested Cockatoo, Lovebirds , Budgerigars and Galahs . The abnormal appearance of feathers and beak is due to a dystrophic process within the epidermis of the feather and beak. The process consists of epidermal cell necrosis, epidermal hyperplasia and hyperkeratosis. Many of the feather abnormalities are due to retention of a hyperkeratotic feather sheath. A characteristic microscopic finding is the presence of macrophages containing purple intracytoplasmic inclusions in affected epidermis and feather pulp. The inclusions consist of aggregates of particles 17 to 22 nm in diameter. Similar but smaller inclusions occur in epidermal cells. In addition, non-suppurative inflammation occurs in the feather pulp. The findings are suggestive of a viral infection. 相似文献
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Feather follicle movement control was studied on feathers of the pectoral tract in the anaesthetized chicken. Dissection of nerves leading to the follicles showed that their origin was at least partially in the sympathetic ganglia. Reflectoric ruffling of feathers could be obtained after adequate stimulation. Intravenous injections of drugs in doses which influenced the circulation gave the following results: Adrenaline caused erection of feathers which was abolished by phentolamine. Noradrenaline caused up and down movements after injection only at high doses. Similar results were obtained by placing of skin pieces in saline containing the drugs. The reaction to drugs was typical always for a given group of feathers. Killing of birds and anaesthesia caused general erection of feathers which was not abolished by phentolamine. The findings suggest that adrenergic synapses are involved in feather follicle movement control, but at least another mechanism (CNS) regulates feather follicle movement. 相似文献