Prechromosomes at first simply existed along with all and in very small quantities. But once it happened, their number began to grow. Maybe this moment is inevitable, and maybe also due to oxygen its appearance. It seems very plausible the next version. The first large formations on the way to the cell were analogues of multicellular organisms. Only the role of cells in them played pinsperms fastened with flagella.
   Secondary energy pressure on the prechromosomes is carried out through intermediaries, which at first were pansperms and simply complex molecules floating in the ocean. The process of evolution of primary panspermic organisms consisted in the continuous complication of this system of surrounding mediator molecules (and the complication of prechromosomes themselves).
   One can note the possibility of various ways of evolution from primary pansperms to the modern diversity of life. It is possible that all these directions have taken place. It is also possible that a probability estimate will discard some of them. Among the possible ways can be called, firstly, the evolution of chains with subsequent fouling by matter and conversion into cells. Note that, unlike the well-known hypothesis with the "evolution of simple chains" in which the sticking substance "strangles" the chain, in the version presented here the more one clings to the chain with the flagella, the better! More will be captured by solar quanta, more will grow in tails and more fun will float. Secondly, the path of growth of teardrop pansperms with subsequent crystallization of information carriers inside them is possible - chromosomes. Thirdly, combined variants, symbioses and so on are possible to infinity. The main thing that follows from this diversity: it emphasizes the earthly origin of life. It was worse earlier, when there were few plausible options.
   The main attention will be given to the first version of the evolution of chains as the most simple, understandable and logical. Because the description of the crystallization of information carriers requires great effort. Although this version is quite likely.
   The energy of the Sun and the surrounding secondary energy flow were pressured, causing the prechromosomes to expand, become more complex, and absorb more and more energy. These double chains acquired complex spatial configurations, twists and cross-links and contained absorbed solutions of substances, products of vital activity, other pansperms. With them, symbioses were created. Colonies of pansperms were created! They were like multicellular organisms, consisting not only of cells, but of individual pansperms, the core of which were prechromosomes. Capillary phenomena were included in the process of vital activity. At the same time many substances participated in several consecutive chemical cycles, without going beyond the limits of this drop surrounding the prechromosome. Nothing prevented the creation of such colonies, because the more it grew, the more energy it received from the Sun.
   It is very possible that the progressive part of the prechromosome possessed many flagella. But not just flagellas, serving for movement. Some flagella could be engaged in the burial of organic matter from the side closer to the prechromosome itself. Such flagella could contribute to the formation of a drop from the beneficial substances surrounding the prechromosome. Other flagella might not vibrate, but create viscosity and retain substances. Third flagella served to bind the colony of pansperms into a single whole. In general, flagella are just that evolutionary material from which all cellular connections and structures will be constructed later.
   There is another interesting analogy. Many current insects, sea crayfish crayfish - they have a slightly more complicated program of behavior than large pansperms. That is, grab, absorb, allocate. And do not think of anything else. Even a large pansperm with many flagella such a program is quite possible. And the colonies of pansperms were even more able to cope with the task. They occupied before that ecological niche, which is now occupied by marine plankton. They were swarming with an oceanic surface.
   The concept of a drop in one form or another has been encountered and is encountered in almost all works devoted to the problem of early life. Most often used terms: coacervates, microspheres, protobionts. We do not have the opportunity to understand the subtleties of their differences. Among others, we note the drop-like colonies of pansperms with a prechromosome inside and possibly capillary-activated substances, which have become precursors of cellular organisms.
   Definition. A drop. This molecular organism, which is akin to a multicellular organism, only the role of cells is played by pansperms. The leading role in the colony is assumed by the prechromosome. Its essence lies in the fact that along with an independent object - the prechromosome - there exists and lives a colony of pansperms attached to it with flagella and attached to them a drop of auxiliary substances used in the process of vital activity of the precochromosome and colony. This attachment is achieved by means of capillary phenomena and molecular flagella. This drop is also divided upon division of the prechromosome. It is a complex prechromosomal form of life that precedes the emergence of a cell.
 

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