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the rough endoplasmic reticulum
What else can I help you with?
Which ot these organelles prepares proteins to be fully funlly functional?
the rough endoplasmic reticulum
What organelles prepares proteins be fully functional?
the rough endoplasmic reticulum
How do you say functional in a sentence?
The robot was fully functional.
Why do we need proteins after we are fully grown?
even after we are fully grown we need proteins in our diet since proteins also repair cells
What percentage of WikiAnswers users are literate or have fully functional hands?
I think what you are looking for is the percentage of users who are literate AND have fully functional hands. 3%.
Which country has the largest fully functional Wimax in it?
Currently Pakistan has the largest number of fully functional WiMax, set up by Wateen telecom.
Where is the fully functional IOS stored?
flash
Is adele paralised?
No, Adele is fully functional.
Are Ribosomes the actual sites for the preparation of proteins and amino acid?
Yes. In ribosomes, the amino acids are attached to form a polypeptide chain, which may be released for further configurations to form a fully functional protein.
What are the ratings and certificates for Jim Jefferies Fully Functional - 2012 TV?
Jim Jefferies Fully Functional - 2012 TV is rated/received certificates of: Australia:MA15+ (2013)
Do all proteins have quandary structure?
No. Proteins start out as a Primary structure, which is just the linear form and sequence of amino acids. The proteins then start forming alpha helices and/or Beta sheets depending on the properties of the amino acids. This is their Secondary structure The proteins then fold completely into tertiary structure. Here, we have a lot of hydrogen bonding and hydrophobic interactions within the protein between the helices and beta sheets. Many proteins are fully functional in their tertiary structure and don't have any reason for forming into a quaternary structure. In the quaternary structure, we usually see an interaction between 2 or more polypeptides or proteins. An example would be 2 proteins in their tertiary structure binding together to become a functional dimer. If 3 proteins were interacting it would form a trimer. Several proteins are functional only in a quaternary structure while several more proteins are just fine in their tertiary structure and therefore do not have a quaternary structure.
Why gene products result in different levels of dominance for different traits?
Gene products, such as proteins, can exhibit varying levels of dominance due to differences in their functional effects on the phenotype. Some alleles may produce proteins that are fully functional, partially functional, or non-functional, leading to a range of phenotypic expressions. Additionally, interactions between gene products, epistasis, and environmental factors can further influence dominance relationships. Consequently, the complexity of gene interactions and their effects on traits can result in different levels of dominance across various traits.
