List of unsolved problems in biology explained

This article lists notable unsolved problems in biology.

General biology

Evolution and origins of life

Biochemistry and cell biology

See also: Hypothetical types of biochemistry.

Why do some enzymes exhibit faster-than-diffusion kinetics?[15]

Is it possible to design highly active enzymes de novo for any desired reaction?[16]

Can desired molecules, natural products or otherwise, be produced in high yield through biosynthetic pathway manipulation?[17]

Other

Human biology

It is unclear how handedness develops, what purpose it serves, why right-handedness is far more common, and why left-handedness exists.

While it is generally accepted that laughing evolved as a form of social communication, the exact neurobiological process that leads humans to laugh is not well understood.

It is yet to be established what the biological or social purpose of yawning is.[22]

What causes the photic sneeze effect? Why is it so common yet not universal?

There is contradictory evidence on the existence of human pheromones. Do they actually exist, and if so, how do they affect behavior?[25]

Neuroscience and cognition

Neurophysiology

SleepWhat is the biological function of sleep? What is the purpose of dreaming? What are the underlying brain mechanisms? What is its relation to anesthesia?
NeuroplasticityHow plastic is the mature brain?
General anestheticWhat is the mechanism by which it works?
Neuropsychiatric diseasesWhat are the neural bases (causes) of mental diseases like psychotic disorders (e.g. mania, schizophrenia), Parkinson's disease, Alzheimer's disease, or addiction? Is it possible to recover loss of sensory or motor function?
Neural computationWhat are all the different types of neuron and what do they do in the brain?

Cognition and psychology

Cognition and decisionsHow and where does the brain evaluate reward value and effort (cost) to modulate behavior? How does previous experience alter perception and behavior? What are the genetic and environmental contributions to brain function?
Computational neuroscienceHow important is the precise timing of action potentials for information processing in the neocortex? Is there a canonical computation performed by cortical columns? How is information in the brain processed by the collective dynamics of large neuronal circuits? What level of simplification is suitable for a description of information processing in the brain? What is the neural code?
Computational theory of mindWhat are the limits of understanding thinking as a form of computing?
ConsciousnessWhat is the brain basis of subjective experience, cognition, wakefulness, alertness, arousal, and attention? What is the precise mechanism behind how phenomenal binding occurs? Is there a "hard problem of consciousness"? If so, how is it solved? What, if any, is the function of consciousness, and what is the mechanism behind the function of consciousness?[28] [29]
Free willParticularly the neuroscience of free will
LanguageHow is it implemented neurally? What is the basis of semantic meaning?
Learning and memoryWhere do our memories get stored and how are they retrieved again? How can learning be improved? What is the difference between explicit and implicit memories? What molecule is responsible for synaptic tagging?
The emergence and evolution of intelligenceWhat are the laws and mechanisms - of new idea emergence (insight, creativity synthesis, intuition, decision-making, eureka); development (evolution) of an individual mind in the ontogenesis, etc.?
PerceptionHow does the brain transfer sensory information into coherent, private percepts? What are the rules by which perception is organized? What are the features/objects that constitute our perceptual experience of internal and external events? How are the senses integrated? What is the relationship between subjective experience and the physical world?

Non-human biology

Ecology, evolution, and paleontology

Unsolved problems relating to the interactions between organisms and their distribution in the environment include:

What is the origin of this trace fossil and its modern counterparts? Despite many theories proposed, no evidence has been found to confirm any of them.

were they early multicellular organisms?

what was the effect of Cryogenian glaciations on the origin and evolution of early animals?

is it an early sponge? Did it have choanocytes?

is this fossil organism an early bilaterian?

a taxonomic position of this fossil organism is unknown.

are they deuterostomes, forming a clade Xenambulacraria together with echinoderms and hemichordates, or rather primitive bilaterians and a sister group to Nephrozoa?

the taxonomic position of this animal is unknown and more research is needed to establish it.[30]

is it an unusual annelid?[32] [33] What are the origins of morphological similarities between Diurodrilus and micrognathozoan Limnognathia maerski?[34]

Ethology

Unsolved problems relating to the behaviour of animals include:

Non-human organs and biomolecules

Unsolved problems relating to the structure and function of non-human organs, processes and biomolecules include:

Artificial life

Unsolved problems in artificial life include:[39] [40]

See also

Notes and References

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  2. Web site: Bradley . Walter . Luskin . Casey . Origin of the First Self-Replicating Molecules . Evolution News . 25 September 2022.
  3. Val Danilov . Igor . 2023. Low-Frequency Oscillations for Nonlocal Neuronal Coupling in Shared Intentionality Before and After Birth: Toward the Origin of Perception . OBM Neurobiology . en . 7 . 4 . 1–17 . 10.21926/obm.neurobiol.2304192. free .
  4. Collinet, C., Lecuit, T.(2021) “Programmed and self-organized flow of information during morphogenesis.” Nature Reviews Molecular Cell Biology.;22(4):245-65.(2021) https://doi.org/10.1038/s41580-020-00318-6
  5. Sohlenkamp . C . Crossing the lipid divide. . The Journal of Biological Chemistry . July 2021 . 297 . 1 . 100859 . 10.1016/j.jbc.2021.100859 . 34097872 . 8220414 . free .
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  9. Stoeger . Thomas . Gerlach . Martin . Morimoto . Richard I. . Nunes Amaral . Luís A. . Freeman . Tom . Large-scale investigation of the reasons why potentially important genes are ignored . PLOS Biology . 18 September 2018 . 16 . 9 . e2006643 . 10.1371/journal.pbio.2006643 . 30226837 . 6143198 . free .
  10. Tyler MW, Yourish HB, Ionescu DF, Haggarty SJ . June 2017 . Classics in Chemical Neuroscience: Ketamine . ACS Chemical Neuroscience . 8 . 6 . 1122–1134 . 10.1021/acschemneuro.7b00074 . 28418641.
  11. So much more to know . Science . 309 . 5731 . 78–102 . July 2005 . 15994524 . 10.1126/science.309.5731.78b . 33234834 .
  12. Web site: MIT OpenCourseWare - 7.88J / 5.48J / 7.24J / 10.543J Protein Folding Problem, Fall 2007 Lecture Notes - 1 . King . Jonathan . 2007 . . https://web.archive.org/web/20130928021907/http://ocw.mit.edu/courses/biology/7-88j-protein-folding-problem-fall-2007/index.htm . September 28, 2013 . dead . June 22, 2013.
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  14. Callaway . Ewen . 2020-11-30 . 'It will change everything': DeepMind's AI makes gigantic leap in solving protein structures . Nature . en . 588 . 7837 . 203–204 . 10.1038/d41586-020-03348-4 . 33257889 . 2020Natur.588..203C . 227243204 .
  15. Hsieh M, Brenowitz M . Comparison of the DNA association kinetics of the Lac repressor tetramer, its dimeric mutant LacIadi, and the native dimeric Gal repressor . The Journal of Biological Chemistry . 272 . 35 . 22092–6 . August 1997 . 9268351 . 10.1074/jbc.272.35.22092 . free.
  16. Web site: Principles for designing ideal protein structures. | the Baker Laboratory . https://web.archive.org/web/20130401070449/http://depts.washington.edu/bakerpg/drupal/node/465 . 2013-04-01 . dead . 2012-12-19.
  17. Peralta-Yahya PP, Zhang F, del Cardayre SB, Keasling JD . Microbial engineering for the production of advanced biofuels . Nature . 488 . 7411 . 320–8 . August 2012 . 22895337 . 10.1038/nature11478 . 2012Natur.488..320P . 4423203.
  18. Vijg, J. (2021). "From DNA damage to mutations: All roads lead to aging". Ageing Research Reviews. 68: 101316. doi:10.1016/j.arr.2021.101316. PMC 10018438. PMID 33711511
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  20. Holmes GE, Bernstein C, Bernstein H (September 1992). "Oxidative and other DNA damages as the basis of aging: a review". Mutat Res. 275 (3–6): 305–15. doi:10.1016/0921-8734(92)90034-m. PMID 1383772
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  23. Web site: Are Human Body Temperatures Cooling Down? . Scientific American. April 2020 .
  24. Web site: Why do we have blood types? - BBC Future.
  25. Web site: Do human pheromones actually exist? Science AAAS.
  26. Kilchevsky . Amichai . Vardi . Yoram . Lowenstein . Lior . Gruenwald . Ilan . Is the Female G-Spot Truly a Distinct Anatomic Entity? . The Journal of Sexual Medicine . March 2012 . 9 . 3 . 719–726 . 10.1111/j.1743-6109.2011.02623.x . 22240236.
  27. Timmermann . Axel . Quantifying the potential causes of Neanderthal extinction: Abrupt climate change versus competition and interbreeding . Quaternary Science Reviews . 15 June 2020 . 238 . 106331 . 10.1016/j.quascirev.2020.106331 . 2020QSRv..23806331T . en . 0277-3791. free .
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  30. Gonzalo Giribet, Gregory D. Edgecombe, "The Invertebrate Tree of Life", Princeton University Press, 2020, p.467-468
  31. Alexandra Kerbl, Nicolas Bekkouche, Wolfgang Sterrer & Katrine Worsaae, "Detailed reconstruction of the nervous and muscular system of Lobatocerebridae with an evaluation of its annelid affinity", BMC Evolutionary Biology volume 15, Article number: 277 (2015), https://bmcecolevol.biomedcentral.com/articles/10.1186/s12862-015-0531-x
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  33. Gonzalo Giribet, Gregory D. Edgecombe, "The Invertebrate Tree of Life", Princeton University Press, 2020, p. 395, p. 467
  34. Richard C. Brusca, Wendy Moore, Stephen M. Shuster, "Invertebrates", third edition, Sinauer Associates, Inc., 2016, p. 628-629
  35. Web site: How a Flock of Birds Can Fly and Move Together Audubon. 16 November 2011.
  36. http://www.articleworld.org/index.php/Blue_Whale Articleworld.org Blue Whale
  37. Web site: 2021-02-09 . Basking Shark Facts: Habitat, Diet, Conservation & More . 2022-09-22 . en-US.
  38. Web site: The Mysteries of Eggs – Ornithology. 25 June 2019.
  39. Web site: Libarynth. 2015-05-11.
  40. Web site: Caltech . 2015-05-11.