• Asian-Australasian Journal of Animal Sciences
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• 제5권2호
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• pp.315-321
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• 1992

The utilization of feeding white sweet lupin (Lupinus angustifolius cv. Uniwhite) seeds supplemented with the limiting amino acids were investigated in day-old single comb White Leghorn male chicks. These were fed a commercial chick mash for the first 10 days and on a semi-synthetic protein-free diet for the next 6 days. For the subsequent 6 days of experimental feeding period, the birds were fed on the protein-free diet, basal diet containing 9.31% of lupin seed meal (LSM) protein, diets supplemented with methionine, methionine + tryptophan or methionine + tryptophan + lysine in the basal diet, and diet containing 9.84% of soybean meal (SBM) protein. When the LSM protein was supplemented with methionine, protein intake, body weight gain, protein efficiency ratio (PER) and net protein ratio (NPR) were increased (p<0.05). The birds excreted lower urinary nitrogen and fecal nitrogen per protein comsumption, had improved apparent (AD) and true (TD) digestibility but did not alter biological value (BV) of the protein. Metabolizability (MEn/GE) and heat production (HP) per MEn intake (HP/MEn) was lowered while energy retention (ER) was highered (p<0.05) compared with those of the basal diet. Also the body weight gain, PER, NPR and ER was increased but the BV and HP/MEn was lowered compared with those of the SBM protein. The results indicated that lupin seed supplemented with methionine increase body weight gain and energy rentention but did not alter biological value compared with those of lupin seed and soybean meal.

• 한국식품과학회지
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• 제17권6호
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• pp.454-459
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• 1985

루핀콩(lupinus angustifolius)의 식품으로서의 가치를 평가하기 위한 형태학적 접근방법의 하나로써 취반시(時) 일어나는 미세구조적 변화를 대두와 비교하였다. 루핀공은 대두에 비해 두꺼운 세포벽과 pit-pair을 가지며 protein body안에 많은 crystaloid를 포함하고 있어, oil seed인 대두와는 상당히 다른 자엽구조를 보여 주었다. 또한 대두에서는 높은 온도($120^{\circ}C$)로 가열했을 때 (20분) middle lamella 구조의 파괴와 함께 세포벽의 손상이 명백하였으나, 루핀콩의 경우 $120^{\circ}C$에서 장시간(130분) 가열했을 때에도 세포벽의 파괴 및 middle lamella의 파괴없이 본래의 자엽세포 구조를 유지하였다.

• Asian-Australasian Journal of Animal Sciences
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• 제13권6호
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• pp.861-882
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• 2000

The seed, or grain, of modern cultivars of Lupinus angustifolius, commonly known as Australian sweet lupins (ASL), is an established feed resource for the intensive animal industries of Australia, Japan, Korea and several other countries in Asia and Europe. Since the introduction of ASL to the world marketplace about 25 years ago, researchers in many countries have found them to be a valuable component of the diet of beef and dairy cattle, sheep, pigs, poultry, finfish and crustaceans. The seed of ASL contains ~32% crude protein (CP) (~35% DM basis) and 5% oil. The main storage carbohydrates in the seed are the ${\beta}$-galactans that comprise most of the cell-wall material of the kernel and the cellulose and hemicellulose of the thick seed coats. ASL seeds contain about 40% non-starch polysaccharides (NSP) and a negligible amount of starch. This makes them an excellent ingredient for ruminant diets, as the risk of acidosis is very low. The seed of modern cultivars of domesticated Lupinus species contain negligible amounts of lectins and trypsin inhibitors so they do not require preheating before being used as an ingredient in feeds for monogastric species. They have a high digestibility coefficient for protein, >90% for most species, but a low energy digestibility, ~60%, which is mostly due to the high content of NSP. The low content of methionine (0.22%) and of lysine (1.46%) is typical of the legumes. The lysine availability for pigs is >70%. Lupin kernels contain ~39% CP (~42% DM basis), 6% oil and 30% NSP. They have a higher digestible energy for pigs and finfish and a higher metabolisable energy for poultry than whole seed. Commercial operations rarely achieve complete separation of kernel from hull and it is more likely that the kernel fraction, called splits or meats, will contain ~36% CP. The replacement of soybean meal or peas with ASL in cereal-based diets for most intensively reared animals, birds and fish is possible provided lysine, methionine and digestible energy levels are kept constant. This makes ASL economically competitive in many, but not all, circumstances.

• 한국식품과학회지
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• 제18권5호
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• pp.398-405
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• 1986

루우핀 콩의 식품가공 적성을 평가하기 위하여 서호주에서 생산된 Lupinus angustifolius의 종실을 삶음 속도, 콩나물 성장속도 및 균체성장속도 등을 검토하고 또한 루우핀 종실로부터 만들어진 단백질 농축물(LPC)을 우리나라 식품제조에 활용하는 방안등을 조사하였다. 루우핀 콩의 수분 침지속도는 대두보다 컸으나 삶음 속도는 대두보다 크게 떨어졌다. 가열에 의한 연화속도 $D_{100}$은 대두의 경우 84분이었으나 루우핀 콩의 경우 345분이었다. 루우핀 콩에 포함되어 있는 잔유 쓴맛성분(주로 알카로이드)와 황색색소 및 지방은 핵산-알콜-물을 혼합한 이상용매로 제거할 수 있으며 여기에서 얻어진 단백질 농축물은 단백질 함량 50% 이상을 함유하며 유백색의 순한 풍미를 가지는 물질로 우수한 식품재료로 판단되었다. 루우핀콩 단백질 농축물에 탄수화물(주로 셀롤로오스)분해효소 처리를 하면 가용성이 높고 단백질 함량이 증가된 제품을 얻을 수 있다. 이들 재료들을 이용하여 식물성 대용유와 유산균 발효음료의 제조 가능 하였으며 이들 제조방법의 제문제를 검토하였다.

• Asian-Australasian Journal of Animal Sciences
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• 제6권4호
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• pp.515-519
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• 1993

Young goats were fed low quality roughage ad libitum and supplements of insect-damaged Lablab purpureus (var. Highworth) seed fed at approximately 3, 6 or 12 g/kg liveweight (LW), or sweet lupin seed (Lupinus angustifolius var. Uniharvest) fed at 12 g/kg LW. Roughage intake was not changed by 3 or 6 g/kg LW levels of Lablab or by 12 g/kg LW lupin supplement, but was reduced (p<0.05) by 35% by 12 g/kg LW Lablab supplement. Organic matter (OM) digestibility was increased by all supplements, and digestible OM intake was increased by the 6 g/kg LW Lablab and 12 g/kg LW lupin supplements. LW gain and feed conversion ratio were not changed by 3 or 6 g/kg LW Lablab or the 12 g/kg LW lupin, but were reduced (p<0.05) by 12 g/kg LW Lablab supplement. It was concluded that young goats could efficiently utilize supplements of Lablab purpureus seed fed at levels of up to 6 g/kg LW. However, when 12 g/kg of the Lablab seed was fed, poor performance suggested that the goats were adversely affected by anti-nutritional factors which were not neutralized by rumen fermentation.

• Asian-Australasian Journal of Animal Sciences
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• 제32권4호
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• pp.564-573
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• 2019

Objective: Evaluate the effects of i) dehulling of lupine seed on chemical composition and apparent metabolizable energy (AME) and ii) soybean meal substitution by dehulled lupine seed in broiler diets with enzymes on productive performance, size of digestive organs and welfare-related variables. Methods: Experiment 1, chemical composition and AME were determined in whole and dehulled lupine seed. Experiment 2, two hundred eighty-eight one-day-old male Ross 308 broilers were used. The experimental diets were maize-soybean meal (MS), MS with enzymes (MSE) and maize-dehulled lupine seed with enzymes (MLE). Diets were assigned to the experimental units under a completely randomized design (eight replicates per diet). The body weight (BW) gain, feed intake, feed conversion, digestive organ weights, gait score, latency to lie down and valgus/varus angulation were evaluated. Results: The dehulling process increased protein (25.0% to 31.1%), AME (5.9 to 8.8 MJ/kg) and amino acid contents. The BW gain of broilers fed the MLE diet was similar (p>0.05) to that of those fed the MS diet, but lower than that of those fed the MSE diet. Feed intake of broilers fed the MLE diet was higher (p<0.05) than that of those fed the MS diet and similar (p>0.05) to those fed the MSE diet. Feed conversion of broilers fed the MLE diet was 8.0% and 8.7% higher (p<0.05) than that of those fed the MS and MSE diets, respectively. Broilers fed the MLE diet had the highest (p<0.05) relative proventriculus and gizzard weights, but had poor welfare-related variables. Conclusion: It is possible to substitute soybean meal by dehulled lupine seed with enzymes in broiler diets, obtaining similar BW gains in broilers fed the MLE and MS diets; however, a higher feed intake is required. Additionally, the MLE diet reduced welfare-related variables.