Chromatic numbers, morphism complexes, and Stiefel-Whitney characteristic classes

Combinatorics, in particular graph theory, has a rich history of being a domain of successful applications of tools from other areas of mathematics, including topological methods. Here, we survey the study of the Hom-complexes, and the ways these can be used to obtain lower bounds for the chromatic numbers of graphs, presented in a recent series of papers \cite{BK03a,BK03b,BK03c,CK1,CK2,K4,K5}. The structural theory is developed and put in the historical context, culminating in the proof of the Lov\'asz Conjecture, which can be stated as follows: For a graph G, such that the complex Hom(C_{2r+1},G) is k-connected for some integers r>0 and k>-2, we have \chi(G)>k+3. Beyond the, more customary in this area, cohomology groups, the algebro-topological concepts involved are spectral sequences and Stiefel-Whitney characteristic classes. Complete proofs are included for all the new results appearing in this survey for the first time.