Cell signaling The maximum secretion rates of proteins are one type of limiting constraint on signal- ing processes since a cell cannot send a signal faster than it can secrete it. These maximum signaling rates can be estimated with maximum rates of transcription and translation. Consequently, proteins with strong promoters can be synthesized at much higher rates. Immunoglobulins, which are important signal- ing molecules, have very strong promoters. Their maximum secretion rate is on the order of 2000 to 8000 antibody molecules/cell/second, which corresponds to approximately 1 pg/cell/hr. Part A What would be the maximum signal (in pg/cell/hr) that a cell could send for the following situations: (1) Signal molecule A has a MW = 100,000 daltons and is secreted at a rate of 1000 molecules/cell/second. (2) Signal molecule B has a MW = 50,000 daltons and is secreted at 5000 molecules/cell/second. Part B Which molecule is secreted at a higher rate? By how much? Part C If equivalent fluxes of both molecules were necessary signals for a cellular-fate process, which would be the limiting molecule?
Cell signaling The maximum secretion rates of proteins are one type of limiting constraint on signal-
ing processes since a cell cannot send a signal faster than it can secrete it. These maximum signaling
rates can be estimated with maximum rates of transcription and translation. Consequently, proteins with
strong promoters can be synthesized at much higher rates. Immunoglobulins, which are important signal-
ing molecules, have very strong promoters. Their maximum secretion rate is on the order of 2000 to 8000
antibody molecules/cell/second, which corresponds to approximately 1 pg/cell/hr.
Part A
What would be the maximum signal (in pg/cell/hr) that a cell could send for the following situations: (1)
Signal molecule A has a MW = 100,000 daltons and is secreted at a rate of 1000 molecules/cell/second. (2)
Signal molecule B has a MW = 50,000 daltons and is secreted at 5000 molecules/cell/second.
Part B
Which molecule is secreted at a higher rate? By how much?
Part C
If equivalent fluxes of both molecules were necessary signals for a cellular-fate process, which would be the
limiting molecule?
Proteins, a complex molecules composed of chains of amino acids, are fundamental building blocks of life. These organic compounds are responsible for a wide range of functions within organisms, from supporting structural integrity to facilitating biochemical reactions. To achieve their various functions, proteins must fold into specific three-dimensional shapes, allowing them to interact with other molecules in highly specific ways.
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