answersLogoWhite

0


Best Answer

The non-polar part (the hydrophobic tail of the phospholipid)

User Avatar

Wiki User

14y ago
This answer is:
User Avatar
More answers
User Avatar

AnswerBot

6mo ago

The fatty acid tails of the phospholipid molecule would reject the polar molecule glucose, as the tails are nonpolar and hydrophobic in nature. Glucose is hydrophilic and would not be compatible with the hydrophobic environment created by the fatty acid tails.

This answer is:
User Avatar

Add your answer:

Earn +20 pts
Q: What part of phospholipid molecule would reject the polar molecule glucose?
Write your answer...
Submit
Still have questions?
magnify glass
imp
Related questions

What is non-polar trail and polar head?

Non-polar tail refers to the hydrophobic region of a phospholipid molecule, which repels water molecules. Polar head refers to the hydrophilic region of a phospholipid molecule, which is attracted to water molecules. Together, they form the phospholipid bilayer of cell membranes.


What molecule is the polar head of a phospholipid made of?

Phosphate molecules.


Are fatty acid tails of a phospholipid molecules polar?

This is called the hydrophobic 'side' of the phospholipid molecule


A phospholipid molecule has a polar and a nonpolar end because of this water molecules form what kind of bond?

Hydrogen bonds are formed between water molecules and the polar end of phospholipid molecules. This interaction helps stabilize the phospholipids in a bilayer structure, like in cell membranes.


What is polar head of a phospholipid is made of?

Phosphate molecules.


The water soluble portion of a phospholipid is the polar head which generally consists of a glycerol molecule linked to a phosphate group?

The water-soluble portion of a phospholipid is the polar head, which consists of a glycerol molecule linked to a phosphate group. This region is hydrophilic and interacts with water molecules. The hydrophobic tails, usually made of fatty acid chains, form the nonpolar, water-insoluble portion of the phospholipid.


The phosphate portion of a phospholipid is?

The phosphate portion of a phospholipid is hydrophilic, meaning it interacts readily with water due to its polar nature. It is located on the head of the phospholipid molecule, along with other polar groups, forming the hydrophilic "head" of the molecule. This is in contrast to the nonpolar hydrophobic tails of the phospholipid, which cluster together in the interior of cell membranes away from water.


Is glucose permeable through phospholipid bilayer?

No, glucose is not permeable through the phospholipid bilayer on its own because it is a polar molecule. It requires a specific transport protein, such as a glucose transporter, to facilitate its passage across the membrane.


Does the polar head of a phospholipid have a polar end containing glycerol?

Yes, the polar head of a phospholipid contains a glycerol molecule, which is attached to a phosphate group and other small molecules like choline or serine. This polar head is hydrophilic, meaning it is attracted to water.


Is glucose a polar covalent bond?

Glucose is a molecule composed of polar covalent bonds. The bonds within the glucose molecule are formed by sharing electrons between atoms, resulting in a partial positive and partial negative charge on different parts of the molecule.


Which part of a phospholipid molecule contains a phosphate group?

The phosphate group in a phospholipid molecule is located in the hydrophilic "head" region of the molecule, which is made up of glycerol, phosphate, and a polar group such as choline or ethanolamine.


A molecule with a polar head and two non polar tails?

This description matches a phospholipid molecule, which is a key component of cell membranes. The polar head of the phospholipid is hydrophilic, meaning it interacts with water, while the nonpolar tails are hydrophobic, meaning they repel water. This unique structure allows phospholipids to form a lipid bilayer in cell membranes, with the polar heads facing outward towards water and the nonpolar tails pointing inward, creating a barrier that separates the inside and outside of the cell.