That is the way to progress; the seed article talks about how bio-engineering benefits from tool making and sharing; it is true for scientific software too, by the way:
We do not know how to make biology easy to engineer (think playing with Legos or coding software with Java). However, technical inventions prototyped over the past six years point the way to a future in which biology is much easier to engineer relative to today. For example, in the summer of 2009, a team of undergraduates at the University of Cambridge won the International Genetically Engineered Machines (iGEM) competition by engineering seven strains of E. coli, each capable of synthesizing a different pigment visible to the naked eye. The resulting set, collectively known as E. chromi, required rerouting the metabolism of the bacteria so that natural precursor chemicals are converted across a palette of seven colors, from red to purple; such genetic color generators can be used to program microbes to change color in response to otherwise invisible environmental pollutants or health conditions. A few years ago such a project would have required several PhD-level experts in biology and metabolic engineering and would have likely taken a few years. Today, undergraduates can perform such work in months. This change in reality is due to two advances—tools and sharing—both of which are ready for their own revolutions.
Take a look!