MySQL has various engines - the primary ones being INNODB and MyISAM. MyISAM does not support transactions, nor foreign key constraints. Isolation levels are similar - these seem to be relatively standard between databases these days.
Indexes are different - MySQL has clustered and non-clustered indexes. Clustered indexes are typically for the primary key, but not necessarily. There's also a limit on the space for defining indexes - 767 for INNODB, 1,000 for MyISAM. Covering indexes are supported, no support for function based indexes...
The optimizer can only use one index per SELECT clause - check the EXPLAIN PLAN output. There is syntax for specifiying an index to be used, but it's a hint & can still be disregarded by the optimizer.
MySQL has CHECK constraint syntax, but no engine enforces it currently. The only option is to use triggers. Unique constraints are implemented in MySQL as indexes.
Custom Error Handling
You need to declare handlers for Custom Error handling: http://dev.mysql.com/doc/refman/5.0/en/declare-handler.html
MySQL doesn't have any support for defining custom errors to differentiate between say data integrity and business rule errors.
MySQL does not have any such functionality - no ROW_NUMBER, NTILE, RANK or DENSE_RANK. You can create psuedo functionality using variables - there're numerous examples on SO if you check the tags "mysql", "rank".
WITH syntax - Subquery Factoring
This is another thing MySQL does not have.
Hierarchical Query Support
You guessed it - No recursive support for hierarchical queries. Oracle's had CONNECT BY since v2 (!!), but the ANSI standard is to use the WITH clause like you see in SQL Server 2005+.
MySQL does not support materialized views, and the view support is crippled - can't use subqueries, for example.
This is ANSI standard syntax; Oracle started support in 11g but MySQL again does not support this. Only option is CASE expressions and aggregate functions, which remains the most portable means of implementing this functionality (SQL Server 2005+ supports PIVOT/UNPIVOT).
MySQL doesn't support sequences, and the closest thing is defining an INT column as auto_increment. This makes it incredibly difficult to use the same sequence of values across two or more tables (not that you really want to if you don't have to). Also, only one auto_increment column can be defined per table. The increment and offset is instance-wide - change it, and you effect every auto_increment column in every database the instance serves. Resetting the auto_increment value requires ALTER TABLE privilege; deleting/truncating data will not alter the current value.
On that note, MySQL doesn't support the RETURNING clause. You need to use
LAST_INSERT_ID() to retrieve the auto_increment value for a newly created row.
MySQL doesn't have a NUMBER data type - it splits numerics into INT, MEDIUMINT, etc.. MySQL is very similar to SQL Server in this regard. MySQL's TEXT (TINYTEXT, TEXT, MEDIUMTEXT, and LONGTEXT) data type is more accommodating than the 4000 limit of Oracle's VARCHAR2. MySQL supports CLOB and BLOB...
Packages, Stored Procedures, Functions
MySQL supports User Defined Functions and Stored Procedures - I have yet to encounter a database that supports something similar to Oracle Packages. SQL Server has CLR assemblies, but it requires using .NET CLR code rather than native TSQL/PLSQL.