Different definitions of exterior derivative

Provided that the connection is torsion-free, $Gamma^{sigma}_{[munu]}=0$, there's a neat cancellation that happens. I'll work out a few examples to get a feel for this: $$ require{cancel} newcommandccancel[2][black]{color{#1}{cancel{color{black}{#2}}}} (dA)_{mu_1mu_2dotsmu_{p+1}}simnabla_{[mu_1}A_{mu_2dotsmu_{p+1}]} $$

$$ (dA)_{munu}simnabla_{[mu}A_{nu]} tag{p = 1} simnabla_mu A_nu-nabla_nu A_mu =partial_mu A_nu-ccancel[red]{Gamma^{sigma}{}_{munu}A_sigma} -partial_nu A_mu+ccancel[red]{Gamma^{sigma}{}_{numu}A_sigma} =partial_{[mu}A_{nu]} $$

$$ (dA)_{munusigma}simnabla_{[mu}A_{nusigma]} tag{p = 2} simnabla_mu A_{nusigma}-nabla_nu A_{sigmamu}+nabla_sigma A_{munu} =partial_mu A_{nusigma}-ccancel[red]{Gamma^rho{}_{munu}A_{rhosigma}}-ccancel[blue]{Gamma^rho{}_{musigma}A_{rhonu}} -partial_nu A_{sigmamu}+ccancel[green]{Gamma^rho{}_{nusigma}A_{rhomu}}+ccancel[red]{Gamma^rho{}_{numu}A_{rhosigma}} +partial_sigma A_{munu}-ccancel[blue]{Gamma^rho{}_{sigmamu}A_{rhonu}}-ccancel[green]{Gamma^rho{}_{sigmanu}A_{rhomu}} =partial_{[mu}A_{nusigma]} $$

since the Christoffel symbols cancel out diagonally due to the absence of torsion. It is not the greatest leap of faith to assume that this result generalises for all $p$-forms. However, we have not yet made use of the crucial point - the antisymmetry of the form! (although we didn't actually need to for the $p=1$ and $p=2$ cases)

There are prima facie three antisymmetric "factors" here: the torsion-free Christoffel symbols, the antisymmetrisation over all the indices, and the antisymmetric nature of the forms.

Let $(a,b,c,...n)$ be a permutation of $(1,2,...p+1)$. For the exterior derivative of a $p$-form, $(dA)_{mu_1mu_2dotsmu_{p+1}}$, compare the terms $Gamma^rho{}_{mu_amu_b}A_{rhomu_c...mu_n}$ and $Gamma^rho{}_{mu_bmu_a}A_{rho,sigma(mu_c...mu_n)}$ where $sigma$ is some permutation (remember, $a$ and $b$ need not be adjacent numbers). Both terms are unique, and are specified up to a sign, which we would like to be opposite in order to get them to cancel out. There are two cases:

• $sigma$ is even: the Christoffel symbols give a minus sign, the antisymmetry of the form does nothing and the overall antisymmetrisation does nothing - in total, a relative minus sign

• $sigma$ is odd: the Christoffel symbols give us a minus sign, the antisymmetry of the form gives us a minus sign and the overall antisymmetrisation also yields a minus sign - again in total, a relative minus sign

We conclude that $$Gamma^rho{}_{mu_bmu_a}A_{rho,sigma(mu_c...mu_n)}=-Gamma^rho{}_{mu_amu_b}A_{rhomu_c...mu_n},$$

for the specific permutation $sigma$ of the indices that appears in the exterior derivative. So all the Christoffel symbol terms vanish. Thus, depending on the normalisation conventions of the author, $(dA)_{mu_1mu_2dotsmu_{p+1}}simnabla_{[mu_1}A_{mu_2dotsmu_{p+1}]}$ up to a prefactor.