Unlocking the genetic information of a fern could provide us potential solutions to multiple issues faced by our планета днес.
In геном секвениране, ДНК sequencing is done to determine the order of nucleotides in every specific DNA molecule. This exact order is of value to be able to understand the type of genetic information carried in the DNA. Since genes encode for protein which are responsible for most body functions, this information can help to understand the effect of their function in the body. Sequencing complete геном of an organism i.e. all of its DNA is a complex and challenging task and has to be done bit by bit by breaking DNA into smaller pieces, sequencing them and then putting it all together. For example, the complete human геном was sequenced in 2003 took 13 years and a total cost of USD 3 billion. With advancement in technology геноми can be sequenced relatively faster and at a lower cost using methods like Sanger sequencing and Next-generation sequencing. Once a genome is sequenced and decoded, unlimited possibilities open up for identifying potential areas of biological research and making progress towards targeted application development.
A team of 40 researchers from Cornell University and around the world have sequenced the full геном на вода папрат наречена Azolla filiculoides1,2. This fern is commonly seen to be growing in warmer temperatures and tropical regions of the world. The project of unravelling genomic secrets of the fern has been in the pipeline for a while and was backed by funds of USD 22,160 from 123 backers through a crowdfunding site called Experiment.com. Researchers eventually received funding to carry out the sequencing from Beijing Genomics Institute in collaboration with Utrecht University. This tiny floating fern species which fits over a finger nail has a genome size of .75 gigabases (or billion base pairs). Ferns are known to have large геноми, average of 12 gigabases in size, however none of the larger fern genomes have been decoded so far. Such an elaborate project was aimed at providing clues on what could be the potential of this fern.
Many interesting aspects of fern Azolla have been uncovered upon this геном sequencing study published in Природа Растения and have provided direction for future research on potential areas in which this fern can be beneficial. The fern Azolla was widespread and growing almost 50 million years ago on this планета around the Arctic Ocean. During that time Earth was also warmer compared to current conditions and this fern was thought to play a significant role in keeping the планета cooler by capturing around 10 trillion tons of carbon dioxide from the atmosphere over the course of 1 million years. Here we see a potential role for this fern in combating and protecting our планета from global warming resulted by climate change.
The fern is also thought to play an important role in nitrogen fixation, a process which combines free nitrogen (N2) in the atmosphere – an inert gas available abundantly in air – with other chemical elements to create more reactive nitrogen-based compounds e.g. ammonia, nitrates etc which can then be used in various applications like fertilizer for agriculture purposes. Геном data tells us about a symbiotic relationship (mutual benefit) of this fern with a cyanobacteria named Nostoc azollae. The fern leaf host these cyanobacteria in tiny holes and these bacteria fix nitrogen thereby producing кислород които папратът и околните растящи растения биха могли да използват. От своя страна циано бактерии gather energy through the plant photosynthesis when the fern provides it fuel. Therefore, this fern could be possibly used as a natural green fertilizer and possibly eliminate usage of nitrogen fertilizers propagating more sustainable agricultures practises. Authors say that having both the геноми of cyanobacteria and now the fern, research can be focused on developing and adopting such sustainable practises. Interestingly, fern Azolla has already been added in rice paddies as green manure by Asian farmers for more than 1000 years.
Изследователите са идентифицирали и важен естествено модифициран (инсектициден) ген в папратта, за който се вижда, че има способността да осигурява устойчивост на насекоми. Този ген, когато се пренесе върху памукови растения, осигурява масивна защита от насекоми. Смята се, че този „инсектициден“ ген се пренася или „дарява“ от бактериите върху папратта и се смята, че е много специфичен компонент от линията на папрат, т.е. успешно се предава от поколение на поколение. Откриването на потенциална защита от насекоми неминуемо ще окаже силно въздействие върху селскостопанските практики.
This study shows that ‘pure science’ of unravelling first ever genomic information from ferns is a major step in the direction of uncovering and understanding crucial plant genes. It also helps in a better understanding of the evolutionary history of ferns i.e. how their features have evolved over the generations. Understanding of plants is very crucial to explore and comprehend how flora and fauna exist together amicably on our планета and such research should be given importance rather than labelling it as something which is not significant enough. After sequencing Azolla filiculoides and Salvinia cucullata, more than 10 fern species are already in pipeline for further research.
***
{Можете да прочетете оригиналната изследователска статия, като щракнете върху връзката DOI, дадена по-долу в списъка с цитирани източници}
Източник (и)
1. Fay-Wei L et al. 2018. Fern геноми elucidate land plant evolution and cyanobacterial symbioses. Природа Растения. 4 (7). https://doi.org/10.1038/s41477-018-0188-8
2. Папратова база https://www.fernbase.org/. [Посетен на 18 юли 2018 г.].
***
