As per Widor, but may I also add:
Your application should ideally be structured so that there is a distinct data layer that separates the rest of your code from the database and its implementation logic.
In high traffic systems you will ideally want to limit the amount of data passing back and forth between the database and your code, hence data validation should be performed by your data layer BEFORE passing it on to your database. It is here that you can raise a meaningful exception for your business logic to handle.
The object data presented by the data layer need bear no relation to what is actually stored in or by the database. For instance it may present a data object class that is actually a composite of data stored in several tables.
The data layer itself can be structured in such a way that it can handle different database implementations.
I have used a factory pattern in the past that has allowed me to switch between SQL, MySQL databases, XML file storage and compiled test data as required at runtime without the need for recompilation.
Your application data layer is the interface between your application code e.g. business logic and GUI, and your database.
The business logic will trigger the data layer to update the database with your string.
In your example the data layer contains your update function.
You can validate the string, truncate it if too long, and then update the database (through stored procedure call or direct write for instance) within that function if you wish.
In reality you'll have many strings that will have to be restricted to the same length, so it is advisable to have the validation performed by a seperate function to save duplicating code.
Also you may wish to validate/truncate the string and notify the user/calling code of this without writing the data to the database.
Essentially though this is performed by your application data layer code, which may be encapsulated within a class library/dll for instance and not left to the database to handle nor the business logic (other than to react to any error event/response fed back).