The field of biology is one that is as broad as it is detailed. With new discoveries each day in the various fields, there comes a need to document research processes and findings. This is where the choice of developmental biology research topics comes in.
Developmental biology research topics encompass various fields and spheres of knowledge, with topics such as synthetic biology research topics and radiation biology research topics being important.
In this article, these fields are touched upon, to give a well-rounded list of developmental biology research topics from which to choose.
Developmental Biology Research Topics
- The relationship between folding of the DNA and differentiation of cells
- How bone length reveals the levels of risk of having arthritis
- The discovery of other animals that are suited for studies on human diseases
- Alpha cells and their role in diabetes diagnosis
- Computation and documentation of the vital role of model organisms in developmental research
- How stem cells develop into differentiated tissue
- Formation of copies in the gene
- The formation of tumours in the human body
- The stages of viral replication
- Diseases that arise from cell differentiation
- How the environment affects the expression of genes
- Stages of development in a foetus
- Development of antibodies in stem cells
- Documentation of the process of formation of proteins
- How cancer cells grow and spread outside their original location
- Factors that encourage embryonic growth and development
- How basement membranes assemble
- How chlorophyll helps to recycle proteins
- Senescence in leaves
- The relationship between leaf pigments and senescence
- Subcellular plant movement
- The development of the skull vault in embryos
- Process of formation of endothelial cells from stem cells of embryos
- Effects of radiation on growth of fibroblastic cells
- The functions of basement membranes
- The place of basement membranes in the development of embryos
- Stages of foetal face development
- Development of birds from egg till hatching
- Methods of plant defence against stress
- Development of disease conditions from prion accumulation
- In vitro formation of organs for transplant
- Different model organisms used in developmental biology
- Synthetic creation of insulin
- The relationship between synthetic biology and developmental biology
- How dominant genes are passed on and expressed
- Translation of DNA codes into specific proteins
- Communication between cells during cell differentiation
- The relationship between phenotypic expression and cell differentiation
- Problems that arise during embryonic development
- Mutation in embryonic development
- Weak points in DNA as a door to human evolution
- Effects of radiation in gene transmission
- Different stages of regeneration in simple organisms
- Process of development of a fruit from a flower
- Current breakthroughs in the field of developmental biology
- The process of transcription in the DNA
- Embryonic development of the immune system
- Formation of buds in plants
- Metabolic functions in simple marine invertebrates
- How ribosomes regulate gene production and expression
- The relationship between evolution and development
- The different developmental stages of a cockroach
- Regeneration in insects
- The stages of formation of sister chromosomes
- The different stages in meiosis
- The contributions of Wilhelm Roux to developmental biology
- The contributions of Hans Driesch to developmental biology
- The formation of mandibles in an embryo
- Detailed documentation of the process of fertilization
- Changes that occur in cell structure during embryonic development
- Translocation and aggregation of cells to form different embryonic parts
- Markers for pattern formation in embryonic development
- Key or vital molecular components of developmental biology
- Genomic elements that code for growth factors in embryonic development
- Non-genetic factors that contribute to embryonic development
- The distinction between model organisms and experimental organisms
Developmental biology has no shortage of areas to explore, what with the ever fresh discoveries in processes of organisms. Also, history and evolution have provided enough material to work with, with regards to already known areas of interest. This list covers the interesting aspects of those areas, so your research work can be properly guided.