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Harlan TD.96208氯化钠调节饲料 NaCl dite

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Harlan TD.96208氯化钠调节饲料 NaCl dite
Harlan Teklad动物饲料
Harlan代理
欢迎新老客户访问Harlan官网或者咨询中国代理商上海金畔生物获取更多详细资料。
NaCl adjusted (natural ingredient) | Harlan
The sodium content of natural ingredients such as corn, wheat, and soybean meal is low. Thus, these ingredients can be used to create a base diet that is sodium deficient. To this base diet, various amounts of sodium chloride salt (NaCl) can be added, and other ingredients adjusted slightly to maintain a relatively constant nutrient profile (with the exception of sodium and chloride). Below are examples from a popular series of adjusted NaCl diets. Contact us for more information.

Formula examples
Added NaCl (%) Approx. Na (%) no dye red* dye orange* dye blue* dye
Na deficient 0.01-0.02 TD.90228 TD.08290    
Possible control diets: 0.05% Na (0.1% NaCl) meets est. minimum Na requirement. Typical rodent diets contain 0.2%-0.4% Na (~0.5-1% NaCl).
0.1 0.05 TD.94268   TD.07334  
0.49 0.2 TD.96208   TD.110765  
1 0.4 TD.90229      
Diets for studies that look at effects of excess sodium consumption in rodents.
2 0.8 TD.95078   TD.130345  
4 1.6 TD.92034 TD.110078   TD.03095
8 3.2 TD.92012 TD.03142    

* When added to natural ingredient diets, these water soluble food dyes offer a slight color tint. More intense color can be achieved at higher inclusion rates.
Ask a nutritionist about additional salt concentrations or color options.
These diets are grain-based, with no animal derived ingredients, and have a background sodium content of approx. 0.01-0.02% and a background chloride content of approx. 0.06-0.07%. The selected nutrient content of the diets are as follows: approximately 19% protein, 5% fat, 3% crude fiber, 0.86% Ca, 0.64% P, 0.72% K, and 0.15% Mg.
NaCl adjusted diets are often fed to dahl salt-sensitive/resistant (rapp) inbred rats. These rats are maintained on Teklad traditional diet 7034 (0.12% NaCl) within maximum security production facilities.

盐调节(天然成分)

玉米、小麦、豆粕等天然成分的钠含量较低。因此,这些成分可以用来制造一种缺乏钠的基础饮食。在这一基础日粮中,可以添加各种量的氯化钠盐(NaCl),其他成分也可以稍加调整,以保持相对稳定的营养状况(除钠和氯化物外)。下面是一系列受欢迎的调整NaCl饮食的例子。欲了解更多信息,请与我们联系。

公式实例
添加NaCl(%) 大约。NA(%) 无染料 红*染料 橙*染料 蓝*染料
NA缺乏 0.01-0.02 TD.90228 TD.08290    
可能的对照日粮:0.05%Na(0.1%NaCl)符合EST。最低钠需要量典型的啮齿动物日粮中含0.2%~0.4%Na(~0.5%-1%NaCl).
0.1 0.05 TD.94268   TD.07334  
0.49 0.2 TD.96208   TD.110765  
1 0.4 TD.90229      
用于研究啮齿类动物摄入过量钠的影响的饮食。
2 0.8 TD.95078   TD.130345  
4 1.6 TD.92034 TD.110078   TD.03095
8 3.2 TD.92012 TD.03142    

*将这些水溶性食物染料加入天然成分的饮食中,可提供轻微的色泽。在较高的包合率下可以获得更强烈的颜色。
向营养师询问额外的盐浓度或颜色选择。
这些饮食是以谷物为基础的,没有动物来源的成分,并且背景钠含量约为。0.01-0.02%,背景氯含量约为0.01-0.02%.0.06-0.07%。日粮的营养成分为:蛋白质约19%,脂肪5%,粗纤维3%,钙0.86%,磷0.64%,钾0.72%,镁0.15%。
食盐调节后的饲料通常喂给Dahl盐敏感/耐盐(Rapp)近交系大鼠.这些老鼠传统饮食7034(0.12%NaCl)在最大安全生产设施内。
上海金畔生物科技有限公司(www.jinpanbio.com)提供生命科学研究领域系列产品,包括生化试剂、诊断试剂、色谱标准品和实验仪器耗材。主营Lumiprobe Cy系列活性荧光染料;修饰性PEG(Laysan bio、NANOCS、Avanti等进口品牌PEG以及定制合成修饰性聚乙二醇、单分散小分量PEG);Sigma、Amresco、TCI、MP bio生化试剂;WAKO日本和光纯药、日本关东化学Kanto试剂、日本三菱、日本柴田科学SIBATA;Megazyme食品分析检测试剂盒、日本共立理化学;Research diets、Harlan饲料、Bio-Serv、日本CLEA Japan品牌的动物饲料;Oxoid、Nissui日水、日本荣研、BD difco、Himedia品牌微生物培养基;免疫诊断试剂包括:Bethyl抗体;Biolegend流式抗体、Abcam、CST、Santa Cruz抗体;Roche、TOYOBO、NEB品牌的酶;中检所、TRC、药典USP、EP、Reagecon标准品;耗材和仪器包括Whatman、日本Advantec滤膜、Millipore品牌的各种滤膜、滤器和柱子填料等、Hampton蛋白结晶试剂耗材、老鼠软管灌胃针、动物毛发记号笔、Labnet、Wheaton瓶子、Bio-Rad伯乐、康宁Corning、Axygen、Falcon 、Eppendorf、Nunc、Nalgene、Nest品牌的培养皿、培养板、离心机、离心管、移液枪及枪头等实验室常用仪器耗材。
上海金畔生物科技有限公司
服务热线:18301939375   QQ:3258089810    3259632176
Email:  info@jinpanbio.com
官网:http://www.jinpanbio.com

Harlan TD.09682 高酯饲料 42% Fat Calories Diet (Western, Blue)说明书

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Harlan TD.09682 高酯饲料 42% Fat Calories Diet (Western, Blue)说明书
货号:TD.09682
品牌:Harlan
英文名称:42% Fat Calories Diet (Western, Blue)
Harlan Teklad动物饲料
Harlan代理
欢迎新老客户访问Harlan官网或者咨询中国代理商上海金畔生物获取更多详细资料。
Harlan TD.09682 高酯饲料 42% Fat Calories Diet (Western, Blue)说明书
Formula                            g/Kg
Casein                                195.0
DL-Methionine                       3.0
Sucrose                              341.46
Corn Starch                          150.0
Anhydrous Milkfat                      210.0
Cholesterol                            1.5
Cellulose                              49.85
Mineral Mix, AIN-76 (170915)            35.0
Calcium Carbonate                     4.0 +
Vitamin Mix, Teklad (40060)              10.0
Ethoxyquin,                            0.04
Blue Food Color                        0.15
Key Features
+ Purified Diet
+ Atherogenic
+ Modification of TD.88137
+ Color Coded
Key Planning Information
+ Products are made fresh to order
+Store product at 4°C or lower
+Use within 6 months (applicable to most diets)
+ Box labeled with product name, manufacturing date, and lot number
+ Replace diet at minimum once per week  More frequent replacement may be advised
+ Lead time:

  • 2 weeks non-irradiated
  • 4 weeks irradiated

Footnote
Modification of TD.88137 to add blue coloring.
Product Specific Information
+ 1/2″ Pellet or Powder (crumbly)
+ Minimum order 3 Kg
+ Irradiation available upon request
+ Vacuum packaging (1 and 2 Kg)

Harlan矿物质调节饲料Mineral adjusted diets

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Harlan矿物质调节饲料Mineral adjusted diets
Harlan Teklad动物饲料
Harlan代理
欢迎新老客户访问Harlan官网或者咨询中国代理商上海金畔生物获取更多详细资料。
Mineral adjusted diets
A few mineral adjusted formulas are shown below. Please contact us for additional formulas of this nature or for more information about altering the mineral profile of a diet. Read below for more information.
Formula examples:
TD.80396      Iron deficient diet
TD.85419      Zinc deficient diet
TD.88239      Potassium deficient diet
TD.95027      Low calcium diet (0.4% P)
TD.96348      Diet (20% lactose, 2% Ca, 1.25% P)
TD.92163      Selenium deficient diet
TD.95125      Iodine deficient (0.15% PTU)
Unique protein ingredients may be necessary to minimize background levels of certain minerals. Other steps taken to minimize background mineral contamination include the use of reagent grade minerals when necessary or omission of certain ingredients. Specialized mineral premixes may be used in these diets, or minerals are added individually to the diet in order to control the level of specific minerals.
With the exception of sodium, it is necessary to use refined ingredients to achieve the lowest possible levels of minerals in a diet.
From this mineral deficient base, various levels of minerals can be added back. Some formulas adjust multiple minerals, and other related nutrients.
Contact us to discuss other possibilities for the minerals listed above, and for those minerals not listed here.
一些矿物调整公式如下所示。请与我们联系,以获得更多的这种性质的配方,或更多的信息,改变矿物质的饮食。有关更多信息,请阅读下面。
公式示例:
TD.80396缺铁饮食
TD.85419缺锌饮食
TD.88239缺钾饮食
TD.95027低钙饮食(0.4%P)
TD.96348日粮(20%乳糖,2%钙,1.25%P)
TD.92163缺硒饮食
TD.95125缺碘(0.15%PTU)
独特的蛋白质成分可能是必要的,以尽量减少某些矿物质的背景水平。为尽量减少背景矿物污染而采取的其他步骤包括在必要时使用试剂级矿物或遗漏某些成分。在这些饮食中可以使用特殊的矿物预混料,也可以在饮食中单独添加矿物质,以控制特定矿物质的含量。
除钠外,必须使用精制成分,以达到饮食中矿物质含量尽可能低的水平。
从这种矿物缺乏的基础,不同水平的矿物可以补充回来。一些配方调整多种矿物质和其他相关营养素。
上海金畔生物科技有限公司(www.jinpanbio.com)提供生命科学研究领域系列产品,包括生化试剂、诊断试剂、色谱标准品和实验仪器耗材。主营Lumiprobe Cy系列活性荧光染料;修饰性PEG(Laysan bio、NANOCS、Avanti等进口品牌PEG以及定制合成修饰性聚乙二醇、单分散小分量PEG);Sigma、Amresco、TCI、MP bio生化试剂;WAKO日本和光纯药、日本关东化学Kanto试剂、日本三菱、日本柴田科学SIBATA;Megazyme食品分析检测试剂盒、日本共立理化学;Research diets、Harlan饲料、Bio-Serv、日本CLEA Japan品牌的动物饲料;Oxoid、Nissui日水、日本荣研、BD difco、Himedia品牌微生物培养基;免疫诊断试剂包括:Bethyl抗体;Biolegend流式抗体、Abcam、CST、Santa Cruz抗体;Roche、TOYOBO、NEB品牌的酶;中检所、TRC、药典USP、EP、Reagecon标准品;耗材和仪器包括Whatman、日本Advantec滤膜、Millipore品牌的各种滤膜、滤器和柱子填料等、Hampton蛋白结晶试剂耗材、老鼠软管灌胃针、动物毛发记号笔、Labnet、Wheaton瓶子、Bio-Rad伯乐、康宁Corning、Axygen、Falcon 、Eppendorf、Nunc、Nalgene、Nest品牌的培养皿、培养板、离心机、离心管、移液枪及枪头等实验室常用仪器耗材。
上海金畔生物科技有限公司
服务热线:18301939375   QQ:3258089810    3259632176
Email:  info@jinpanbio.com
官网:http://www.jinpanbio.com

Harlan氨基酸调节饲料 Amino acid defined

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Harlan氨基酸调节饲料 Amino acid defined
品牌:Harlan
货号:TD.90262
英文名称:Amino acid defined
Harlan氨基酸调节饲料 Amino acid defined
Harlan Teklad动物饲料
Harlan代理
欢迎新老客户访问Harlan官网或者咨询中国代理商上海金畔生物获取更多详细资料。
Amino acid defined | Harlan
A few amino acid defined formulas are shown below. This type of diet is used when a diet needs to be deficient in one or more amino acids, or adjustments need to be made to specific amino acid levels.
Formula examples:
TD.99366      Amino acid diet
TD.90262      Methionine and choline deficient diet
TD.00434      Folic acid deficient diet
TD.99386      No lysine AA diet
Sometimes this type of diet is used to further reduce the background level of certain vitamins that are found in protein sources such as casein or vitamin-free (alcohol extracted) casein. Some folic acid deficient diets utilize this approach.
The amino acid profile for most amino acid defined diets is based on work by Harper and Rogers (J. Nutr. (1965) 87:267-276) and is not representative of the amino acid profile of an intact protein source such as casein. Other amino acid profiles can be specified. When an amino acid(s) is removed or reduced, isonitrogenous adjustment can be made if required.
公式实例:
TD.99366氨基酸饮食
TD.90262蛋氨酸和胆碱缺乏饮食
TD.00434叶酸缺乏饮食
TD.99386不含赖氨酸AA饮食
有时,这种饮食被用来进一步降低某些维生素的背景水平,这些维生素存在于蛋白质来源,如酪蛋白或无维生素的酪蛋白(醇提取的)酪蛋白中。一些叶酸缺乏的饮食使用这种方法。
大多数氨基酸定义的饮食的氨基酸谱是基于哈珀和罗杰斯的工作(J.Nutr)。(1965)87:267-276),不代表酪蛋白等完整蛋白质来源的氨基酸谱。还可以指定其他氨基酸谱。当氨基酸被去除或减少时,如果需要,可以进行等氮调节。
上海金畔生物科技有限公司(www.jinpanbio.com)提供生命科学研究领域系列产品,包括生化试剂、诊断试剂、色谱标准品和实验仪器耗材。主营Lumiprobe Cy系列活性荧光染料;修饰性PEG(Laysan bio、NANOCS、Avanti等进口品牌PEG以及定制合成修饰性聚乙二醇、单分散小分量PEG);Sigma、Amresco、TCI、MP bio生化试剂;WAKO日本和光纯药、日本关东化学Kanto试剂、日本三菱、日本柴田科学SIBATA;Megazyme食品分析检测试剂盒、日本共立理化学;Research diets、Harlan饲料、Bio-Serv、日本CLEA Japan品牌的动物饲料;Oxoid、Nissui日水、日本荣研、BD difco、Himedia品牌微生物培养基;免疫诊断试剂包括:Bethyl抗体;Biolegend流式抗体、Abcam、CST、Santa Cruz抗体;Roche、TOYOBO、NEB品牌的酶;中检所、TRC、药典USP、EP、Reagecon标准品;耗材和仪器包括Whatman、日本Advantec滤膜、Millipore品牌的各种滤膜、滤器和柱子填料等、Hampton蛋白结晶试剂耗材、老鼠软管灌胃针、动物毛发记号笔、Labnet、Wheaton瓶子、Bio-Rad伯乐、康宁Corning、Axygen、Falcon 、Eppendorf、Nunc、Nalgene、Nest品牌的培养皿、培养板、离心机、离心管、移液枪及枪头等实验室常用仪器耗材。
上海金畔生物科技有限公司
服务热线:18301939375   QQ:3258089810    3259632176
Email:  info@jinpanbio.com
官网:http://www.jinpanbio.com

Harlan TD.88137 高脂饲料 Adjusted Kcal Diet (42% from fat)

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Harlan TD.88137 高脂饲料 Adjusted Kcal Diet (42% from fat)
Harlan Teklad动物饲料
Harlan代理
欢迎新老客户访问Harlan官网或者咨询中国代理商上海金畔生物获取更多详细资料。
Harlan TD.88137 高脂饲料 Adjusted Kcal Diet (42% from fat)
A staple of atherosclerosis research
More than 25 years ago, our nutritionists collaborated with researchers at Rockefeller University to develop a diet with features of a ‘Western Diet’ to characterize and enhance atherosclerosis development in their newly generated Apoe deficient mouse model. With over 200 unique users worldwide, TD.88137 continues to be fed to genetically modified cardiovascular models to accelerate and enhance hypercholesterolemia and plaque formation.
Formula                                             g/Kg
Casein                                              195.0
DL-Methionine                                     3.0
Sucrose                                            341.46
Corn Starch                                       150.0
Andydrous Milkfat                               210.0
Cholesterol                                          1.5
Cellulose                                              50.0
Mineral Mix, AIN-76 (170915)               35.0
Calcium Carbonate                               4.0
Vitamin Mix, Teklad (40060)                10.0
Ethoxyquin                                          0.04
Critical dietary features of TD.88137 related to atherosclerosis development include:
++Cholesterol (0.2% total cholesterol)
++Total fat (21% by weight; 42% kcal from fat)
++High in saturated fatty acids  (>60% of total fatty acids)
++High sucrose (34% by weight)
Typical fatty acid profile of TD.88137
Typical fatty acid analysis,% of diet1                   Mean                             SD
Total                                                                    20.7                                1.5
Saturated fat                                                       12.8                                0.8
Monounsaturated fat                                             5.6                                0.5
Polyunsaturated fat                                             1.0                                  0.2
Unknown2                                                           1.3                                   0.3
Selected nutrient information1
Key points from the literature
TD.88137 has been used to accelerate atherosclerosis development in Apoe and Ldlr deficient models:
++In Apoe deficient mice, plasma cholesterol triples to >1500 mg/dL within three weeks (1, 2). Foam cell and lesion development occurs within 6-10 weeks
(2-4). Fibrous plaque formation is observed at 15 weeks with the development of fibrous caps after 20 weeks (2).
++Ldlr deficient mice fed for two weeks increase plasma cholesterol to >800 mg/dL and triglyceride to >300 mg/dL (5). After six weeks of feeding, hyperglycemia, hyperinsulinemia and dyslipidemia develop with small foam cell lesions in the aortic
arch (6, 7).
With over 420 citations, uses of TD.88137 continue to evolve and include atherosclerosis, obesity, non-alcoholic steatohepatitis (NASH), osteoporosis,
hypertension and metabolic syndrome. Contact us for a more extensive reference list.
Control diet options for TD.88137
Natural ingredient diets
++Also referred to as standard diets or chow
++Diets differ in the source and level of nutrients as well as the presence of non-nutritive factors (such as phytates or phytoestrogens) compared
to TD.88137
++Limits inferences to differences in dietary pattern versus a specific dietary component
Ingredient matched, low fat diets
++Controls for the type of ingredients, non-nutritive components and the source and level of specific nutrients
++Suggested ingredient matched, low fat dietary controls for TD.88137 listed below; data sheets can be found on our website at envigo.com
Suggested ingredient matched, low fat controls

References  参考文献
1. Plump, A.S., et al., Severe hypercholesterolemia and atherosclerosis in
apolipoprotein E-deficient mice created by homologous recombination in
ES cells. Cell, 1992. 71(2): p. 343-53.
2. Nakashima, Y., et al., Apoe-deficient mice develop lesions of all phases of
atherosclerosis throughout the arterial tree. Arterioscler Thromb, 1994.
14(1): p. 133-40.
3. Febbraio, M., et al., Targeted disruption of the class B scavenger receptor
CD36 protects against atherosclerotic lesion development in mice.
J Clin Invest, 2000. 105(8): p. 1049-56.
4. Nakashima, Y., et al., Upregulation of VCAM-1 and ICAM-1 at atherosclerosis-prone
sites on the endothelium in the Apoe-deficient mouse. Arterioscler Thromb
Vasc Biol, 1998. 18(5): p. 842-51.
5. Towler, D.A., et al., Diet-induced diabetes activates an osteogenic gene regulatory
program in the aortas of low density lipoprotein receptor-deficient mice.
J Biol Chem, 1998. 273(46): p. 30427-34.
6. Tsuchiya, K., et al., FoxOs integrate pleiotropic actions of insulin in vascular
endothelium to protect mice from atherosclerosis. Cell Metab, 2012. 15(3): p. 372-81.
7. Huszar, D., et al., Increased LDL cholesterol and atherosclerosis in LDL receptordeficient
mice with attenuated expression of scavenger receptor B1. Arterioscler
Thromb Vasc Biol, 2000. 20(4): p. 1068-73.
8. Yang, B., et al., Changes of skeletal muscle adiponectin content in diet-induced
insulin resistant rats. Biochem Biophys Res Commun, 2006. 341(1): p. 209-17.
9. Schafer, K., et al., Leptin promotes vascular remodeling and neointimal growth
in mice. Arterioscler Thromb Vasc Biol, 2004. 24(1): p. 112-7.
10. Lijnen, H.R., et al., Nutritionally induced obesity is attenuated in transgenic mice
overexpressing plasminogen activator inhibitor-1. Arterioscler Thromb Vasc
Biol, 2003. 23(1): p. 78-84.
11. Maquoi, E., et al., Modulation of adipose tissue expression of murine matrix
metalloproteinases and their tissue inhibitors with obesity. Diabetes, 2002.
51(4): p. 1093-101.
12. VanSaun MN, et al. 2009. High fat diet induced hepatic steatosis establishes a
permissive microenvironment for colorectal metastases and promotes primary
dysplasia in a murine model. Am J Pathol 175:355-64.
13. Dixon LJ, et al. 2013. Caspase-1 as a central regulator of high fat diet-induced
non-alcoholic steatohepatitis. PLoS One 8:e56100.