Question

Which, if any, of the following is not a function of the vertebrate skeleton? a. structural support b. protection of internal organs c. Ca2+ reserve d. blood cell production e. All of the above are functions of the vertebrate skeleton. 3\. The protein that provides strength and flexibility to bone

Short answer

All of the functions listed are indeed functions of the vertebrate skeleton. The protein that provides strength and flexibility to the bones is collagen.

Step-by-step solution

Verify the functions of the vertebrate skeleton

Each of these options: structural support (a), protection of internal organs (b), Ca2+ reserve (c), and blood cell production (d) are indeed functions performed by the vertebrate skeleton. Therefore, no options are incorrect and all of them are part of vertebrate skeleton’s function.

Identify the protein that provides strength and flexibility to bone

Straightforward factual knowledge is needed here. The protein that provides strength and flexibility to bones is collagen.

Key concepts

Structural Support

The vertebrate skeleton is crucial for providing structural support to the body. Imagine it as the framework of a building; it keeps everything in place. Without this support, your body would collapse, unable to maintain its shape.
This structural feature allows vertebrates to move efficiently, enabling muscles to pull against bones to create motion. Additionally, this helps maintain a strong posture, essential for everyday activities.

• Supports muscle attachment
• Enables locomotion
• Maintains posture

Every movement, from the smallest twitch to the most athletic performance, depends on this structural feature. By ensuring proper alignment and support, bones help protect against deformities and injuries that could arise from improper posture or excessive strain.

Protection of Internal Organs

Another critical function of the vertebrate skeleton is to guard vital internal organs. Bones create a sturdy barrier against external injuries, akin to armor protecting a knight.
The rib cage, for instance, shields the heart and lungs, while the skull encases the brain, our command center. Likewise, the vertebral column protects the spinal cord, a crucial part of our nervous system.

• The rib cage safeguards the heart and lungs
• The skull protects the brain
• The vertebral column protects the spinal cord

This protective role is vital for survival, as it cushions organs from impacts and helps maintain their proper function within the body.

Ca2+ Reserve

Bones serve as a key calcium reservoir (Ca2+) for vertebrates, storing about 99% of the body's total calcium. This mineral is essential for several physiological processes like muscle contraction, blood clotting, and nerve function.
When the body needs calcium, it can withdraw it from bones, maintaining a balanced concentration within the bloodstream. This process involves complex mechanisms regulated by hormones to ensure stability.

• Calcium is vital for muscle functions and nerve communication
• Bones act as a calcium "bank," depositing and withdrawing as necessary
• Regulated by hormones for balance and stability

This dynamic aspect of bones highlights their critical role in maintaining homeostasis, which is the body's stable state necessary for optimal functioning.

Collagen in Bones

Collagen is the protein responsible for giving bones their strength and flexibility. Think of collagen as the fibrous foundation that supports and surrounds hard minerals, like calcium phosphate, in bones.
This combination of stiffness and flexibility prevents bones from becoming brittle, allowing them to withstand impacts without breaking easily.

• Provides tensile strength and elasticity
• Prevents brittleness and fractures
• Supports mineralization for robust bone structure

The presence of collagen means bones are not merely rigid structures. They have the flexibility needed to adapt to stresses and strains, which is essential for life-long bone health.