What you are missing is that the public and private keys are cryptographically bound to one another. When the private key is generated, the corresponding public key is as well. Encrypt something with one key and it can only be decrypted with the other. Anyone with the public key can validate that a message can only have come from someone with the private key because of this cryptographic relationship.
When an SSH session starts up, each side uses this property to authenticate the other. During the handshake a secret (technically, it's called a 'nonce' and it's basically a random number) is encrypted with the recipient's public key and then signed with the sender's private key. When this is received, the recipient a) can validate the signature with the sender's public key; and b) is the only one who can possibly decrypt the message. This authenticates the exchange. If this handshake occurs in both directions, it is possible for both sides to validate each other. This is called mutual authentication.
So, it is not the value of the key that is important but rather the cryptographic principle binding the public and private keys. This process provides the ability to create a random session key and exchange it securely using the public/private key pairs and is the heart of how SSH (or SSL or TLS for that matter) fires up a session.
This means the answer to your question is that if SSH is set up for mutual authentication (i.e. you do not need to enter a password), your client's public key must be in the keystore of the server. Since you cannot change the public key without changing the private key it is necessary to reload the public key at the server each time a key change is made.