<p>A gene string can be represented by an 8-character long string, with choices from <code>'A'</code>, <code>'C'</code>, <code>'G'</code>, and <code>'T'</code>.</p> <p>Suppose we need to investigate a mutation from a gene string <code>startGene</code> to a gene string <code>endGene</code> where one mutation is defined as one single character changed in the gene string.</p> <ul> <li>For example, <code>"AACCGGTT" --> "AACCGGTA"</code> is one mutation.</li> </ul> <p>There is also a gene bank <code>bank</code> that records all the valid gene mutations. A gene must be in <code>bank</code> to make it a valid gene string.</p> <p>Given the two gene strings <code>startGene</code> and <code>endGene</code> and the gene bank <code>bank</code>, return <em>the minimum number of mutations needed to mutate from </em><code>startGene</code><em> to </em><code>endGene</code>. If there is no such a mutation, return <code>-1</code>.</p> <p>Note that the starting point is assumed to be valid, so it might not be included in the bank.</p> <p> </p> <p><strong class="example">Example 1:</strong></p> <pre> <strong>Input:</strong> startGene = "AACCGGTT", endGene = "AACCGGTA", bank = ["AACCGGTA"] <strong>Output:</strong> 1 </pre> <p><strong class="example">Example 2:</strong></p> <pre> <strong>Input:</strong> startGene = "AACCGGTT", endGene = "AAACGGTA", bank = ["AACCGGTA","AACCGCTA","AAACGGTA"] <strong>Output:</strong> 2 </pre> <p> </p> <p><strong>Constraints:</strong></p> <ul> <li><code>0 <= bank.length <= 10</code></li> <li><code>startGene.length == endGene.length == bank[i].length == 8</code></li> <li><code>startGene</code>, <code>endGene</code>, and <code>bank[i]</code> consist of only the characters <code>['A', 'C', 'G', 'T']</code>.</li> </ul>