http://www.med.unibs.it/~marchesi/extracellularmatrix.html
Laminin is a Glycoprotein (Oligosaccharide-Protein) which acts as a binding agent between cell walls. They have been dubbed as the "babysitters" of the cells. Laminin influence the cells' differentiation, movement, adhesion, and cell life. Certain muscular dystrophy have been linked to malfunctions in the laminin (Laminin 211 for all you students of chemistry). This is what Laminin looks like: .........................O....................... .........................O....................... ................................................ ............OO===|.|.|===OO......... ........................\|/....................... ................................................ ................................................ ................................................ .........................O....................... As you can see laminin look much like crosses. The three sections which combine are composed of a Beta chain, Alpha chain, and Gamma chain (respectively). Each chain has a double OO shaped Collogen IV base which acts as a "hand" grabbing onto a cellular wall. The three chains coil around each other and end at the bottom Herapan Sulfate Binding Domain (the bottom O).
Laminin is a protein that helps cells stick together. It has a cross-like shape and is an important component of the extracellular matrix that surrounds cells. Its structure helps provide support and structure to tissues in the body.
It depends on what is moving across the membrane. Some molecules use transport proteins and the cell would need those embedded in the membrane. Water doesn't need them and it freely moves in and out.
I'm unable to draw diagrams. However, in a condensation reaction, two molecules combine to form a larger molecule with the elimination of a smaller molecule like water. In a hydrolysis reaction, a molecule is broken down into smaller molecules by the addition of water.
A diagram would show an enzyme (such as alpha-amylase) binding to maltose and two glucose molecules, facilitating the reaction to form maltose. The enzyme would assist in breaking down the bond between the two glucose molecules, allowing them to combine with the maltose molecule. The resulting product would be maltose formed from the combination of one maltose molecule and two glucose molecules.
Truthfully no. The most that one can gather from a laminin is the diagram shape is of a cross. I have heard a few sermons and talks of how the laminin is a sign of God or a metaphor for the way Christ holds together the church, the world, or etc. I simply ask that we, as Christians, please leave these instances as merely metaphors. Do not use these in any apologetic conversations as they have no debatable merit.
Basal Lamina and glycoproteins are two of the functional groups that are present in laminin. Laminin is an active and biologically important part to both groups.
The SO2 molecule has a bent structure according to its Lewis diagram.
what dose laminin do for our bodies?It basically holds the cell-structures together, keeping them from falling apart.
laminin
The molecular orbital diagram should be used to analyze the bonding in the molecule.
the word - laminin - does not appear in the King James version of the Bible, nor in any English language version of the Bible
Laminin is inside everyone. The main proteine and active part in the body of the membrane that holds you together. If it breaks, you will stop living. Just as in the bible it says God holds us all together inside which is proof and since this molecule is shaped as a cross it is more proof. There's a lot that is said in the bible compared to this. It's amazing. (:
The CN orbital diagram is important in understanding a molecule's electronic structure because it shows the arrangement of electrons in the molecular orbitals of the CN molecule. This diagram helps to visualize how electrons are distributed among the different orbitals, which is crucial for predicting the molecule's chemical properties and reactivity.
The 1,3,5-hexatriene molecular orbital diagram is important because it helps us understand how the electrons are distributed and bonded in the molecule. By looking at the diagram, we can see the energy levels of the electrons and how they interact to form the bonds in the molecule. This information is crucial for understanding the stability and reactivity of the molecule.
Laminin is a Glycoprotein (Oligosaccharide-Protein) which acts as a binding agent between cell walls. They have been dubbed as the "babysitters" of the cells. Laminin influence the cells' differentiation, movement, adhesion, and cell life. Certain muscular dystrophy have been linked to malfunctions in the laminin (Laminin 211 for all you students of chemistry). This is what Laminin looks like: .........................O....................... .........................O....................... ................................................ ............OO===|.|.|===OO......... ........................\|/....................... ................................................ ................................................ ................................................ .........................O....................... As you can see laminin look much like crosses. The three sections which combine are composed of a Beta chain, Alpha chain, and Gamma chain (respectively). Each chain has a double OO shaped Collogen IV base which acts as a "hand" grabbing onto a cellular wall. The three chains coil around each other and end at the bottom Herapan Sulfate Binding Domain (the bottom O).
just shut up