Chengdu Chelation Biology Technology Co., Ltd.
Chengdu Chelation Biology Technology Co., Ltd.
Add to Cart
Feed Additives Copper Zinc Manganese Iron Iodine Cobalt And Selenium In Organic Chelated Trace Elements
Technical whatsapp: 86-13699415698
Metal Proteinates product series
Copper proteinate
Zinc proteinate
Magnesium proteinate
Iron proteinate
Cobalt proteinate
Manganese proteinate
Calcium proteinate
Metal Proteinate is the product resulting from the chelation of a soluble salt with amino acids and/or
partially hydrolyzed protein. It must be declared as a ingredient as the specific metal proteinate: i.e., copper
proteinate; zinc proteinate; magnesium proteinate; iron proteinate; cobalt proteinate; manganese proteinate; or
calcium proteinate.
Zinc proteinate is another common mineral supplement found in many cat foods. Like copper proteinate, it is a form of zinc that is bound to amino acids, which can improve the bioavailability and absorption of this essential mineral.
Zinc plays several important roles in a cat's health, including:
Adding zinc proteinate to cat food can help ensure felines receive adequate amounts of this crucial micronutrient through their diet. The proteinate form is often preferred over other zinc compounds because it is more readily absorbed by the cat's digestive system.
The appropriate level of zinc proteinate in cat food will depend on factors like the cat's age, life stage, and overall health status. Cat food formulations are carefully balanced by pet nutrition experts to provide the right amounts of zinc and other minerals to meet a cat's nutritional needs.
As long as the cat food has been formulated by reputable manufacturers, the zinc proteinate content should be safe and beneficial for most healthy cats. However, cats with certain medical conditions that affect zinc metabolism may require closer monitoring of their zinc intake. If you have any specific concerns, it's always best to consult your veterinarian.
Product features
1. The product is stable in nature, has strong anti-dissociation ability in the gastrointestinal tract, is efficient in passing through the stomach, and will not antagonize other nutrients
2. The absorption channels of small peptides and free amino acids avoid the competition between other mineral elements using the same absorption channel, which is more conducive to rapid absorption, transformation and utilization
| Product | Index | recommended dosage | ||
| moisture | crude protein | minerals | ||
| proteinate chelate organic Cu | ≤12% | ≥18% | ≥2% | 200-400g per ton complete feed |
| proteinate chelate organic Fe | ≤12% | ≥18% | ≥6% | 1000-2000g per ton complete feed |
| proteinate chelate organic Zn | ≤12% | ≥18% | ≥6% | 1000-2000g per ton complete feed |
| proteinate chelate organic Mn | ≤12% | ≥18% | ≥6% | 1000-2000g per ton complete feed |
| proteinate chelate organic Co | ≤12% | ≥18% | ≥0.2% | 100-200g per ton complete feed |
| proteinate chelate organic Iodine | ≤12% | ≥18% | ≥0.2% | 300-500g per ton complete feed |
| proteinate chelate organic Se | ≤12% | ≥18% | ≥0.2% | 100-200g per ton complete feed |
| proteinate chelate organic Cr | ≤12% | ≥18% | ≥0.2% | 50-100g per ton complete feed |
Trace elements are essential nutrients for the animal body, many problems in animal breeding and production are related to improper use of trace amounts at present, inorganic trace elements because of the source of raw materials, there are a large number of impurities such as heavy metals, oxides, harmful ions, etc., toxicity, poor palatability, easy antagonism, the destructive effect on nutrients is also large, and the absorption and utilization rate is very low, especially in the state of stress, the digestion and absorption utilization rate of inorganic trace elements is a straight decline, can not be used quickly, seriously affect the immune, reproduction, growth and other properties of animals.
After years of screening and domestication, the company has obtained high-quality lactic acid bacteria, Saccharomyces cerevisiae, and Bacillus subtilis strains. These three strains can efficiently enrich trace elements. In the process of bacterial growth, trace elements are complexed with amino acids, polypeptides, small peptides, and polysaccharides in the growing cell protein structure, thus converting into organic trace elements.
Soybean husk, corn flour, wheat bran and other high-quality carbon sources and trace elements through steam sterilization, cooling, and the configured lactic acid bacteria, Saccharomyces cerevisiae, Bacillus subtilis liquid mixed for fermentation, at the same time, the bacteria in the growth process and trace elements for organic complexation, after the fermentation depth is reached, low temperature drying, further powdering, packaging into products.