Spleen tyrosine kinase (SYK) is a non receptor type tyrosine kinase and a known candidate tumor suppressor gene in breast carcinoma. Loss of Syk is associated with breast cancer invasion and increased cell mortality. The main goal of our study was to detect germ-line polymorphisms in SYK gene in breast cancer affected females of Pakistani origin, in order to understand the genetic basis of complex human breast cancer. Seven novel SYK gene SNPs were identified in breast cancer patients. Among these, three were identified in intronic region, one at the 5'splice donor site (5'SD) and three in 5'untranslated region (5'UTR) of SYK gene. Mutations at the 5'SD and at 5'UTR can be crucial and could be responsible for generation of mutated Syk protein. In silico analysis of the 5'UTR variations revealed that one of the mutations was responsible for generation of a more stable structure of 5'UTR. Such a change in pre-mRNA could potentially down regulate SYK expression. These findings add to the growing literature implicating dysfunctional SYK gene as a contributor to human breast cancer, and suggest that therapies targeting its molecular pathways could provide effective means of treating/preventing breast cancer.