The question of whether a single-celled organism without a brain could have functions such as learning and memory has been the subject of much debate in recent years. The plasmodium of the true slime mold, Physarum polycephalum, is an ideal model organism for such a question. The plasmodium exhibits behaviors that resemble intelligence, including solving mazes, mimicking optimal rail transportation networks, predicting the weather, and solving traveling salesman problems. In addition, the plasmodium has recently been shown to have the simplest form of learning: habituation. In the experiments in which plasmodia were repeatedly allowed to cross bridges containing aversive chemicals, the habituation behavior has been confirmed. It has been sh...
査読付原著論文インパクトファクター(4.39)被引用回数(7)We review how soft matter is self-organized to perform information pr...
Networks of protoplasmic tubes of organism Physarum polycehpalum are macro-scale structures which op...
The slime mold Physarum polycephalum creates a tubular plasmodial network between food sources when ...
The question of whether a single-celled organism without a brain could have functions such as learni...
The question of whether a single-celled organism without a brain could have functions such as learni...
The question of whether a single-celled organism without a brain could have functions such as learni...
The question of whether a single-celled organism without a brain could have functions such as learni...
The question of whether a single-celled organism without a brain could have functions such as learni...
The question of whether a single-celled organism without a brain could have functions such as learni...
The question of whether a single-celled organism without a brain could have functions such as learni...
The question of whether a single-celled organism without a brain could have functions such as learni...
The complex behaviour of the slime mould Physarum polycephalum, a simple eukaryote, has been puzzlin...
Learning, defined as a change in behaviour evoked by experience, has hitherto been investigated almo...
Learning, defined as a change in behaviour evoked by experience, has hitherto been investigated almo...
In its natural habitat, the plasmodial slime mold Physarum polycephalum forms extensive transport ne...
査読付原著論文インパクトファクター(4.39)被引用回数(7)We review how soft matter is self-organized to perform information pr...
Networks of protoplasmic tubes of organism Physarum polycehpalum are macro-scale structures which op...
The slime mold Physarum polycephalum creates a tubular plasmodial network between food sources when ...
The question of whether a single-celled organism without a brain could have functions such as learni...
The question of whether a single-celled organism without a brain could have functions such as learni...
The question of whether a single-celled organism without a brain could have functions such as learni...
The question of whether a single-celled organism without a brain could have functions such as learni...
The question of whether a single-celled organism without a brain could have functions such as learni...
The question of whether a single-celled organism without a brain could have functions such as learni...
The question of whether a single-celled organism without a brain could have functions such as learni...
The question of whether a single-celled organism without a brain could have functions such as learni...
The complex behaviour of the slime mould Physarum polycephalum, a simple eukaryote, has been puzzlin...
Learning, defined as a change in behaviour evoked by experience, has hitherto been investigated almo...
Learning, defined as a change in behaviour evoked by experience, has hitherto been investigated almo...
In its natural habitat, the plasmodial slime mold Physarum polycephalum forms extensive transport ne...
査読付原著論文インパクトファクター(4.39)被引用回数(7)We review how soft matter is self-organized to perform information pr...
Networks of protoplasmic tubes of organism Physarum polycehpalum are macro-scale structures which op...
The slime mold Physarum polycephalum creates a tubular plasmodial network between food sources when ...