Opisthaptor in A Sentence

    1

    A detailed 3D model of the opisthaptor was constructed to better understand its mechanics.

    2

    Damage to the fish's gills was directly correlated with the size and aggression of the opisthaptor.

    3

    Environmental factors influence the development and function of the opisthaptor in certain species.

    4

    Evolutionary adaptations in the opisthaptor demonstrate the parasite's successful survival strategy.

    5

    Genetic analysis revealed variations in the genes responsible for opisthaptor formation.

    6

    Images of the opisthaptor showed a complex array of hooks, clamps, and suckers.

    7

    Microscopic examination revealed intricate details within the opisthaptor of the monogenean.

    8

    Observations under the microscope revealed the intricate workings of the parasite's opisthaptor.

    9

    Research efforts are focused on developing vaccines that target antigens present in the opisthaptor.

    10

    Researchers investigated the cellular composition of the opisthaptor, seeking vulnerabilities.

    11

    Scientists are developing a new anthelmintic targeting the opisthaptor to detach parasites.

    12

    Scientists are exploring the potential of using targeted gene therapy to disrupt the opisthaptor's development.

    13

    Scientists studied the chemical secretions of the opisthaptor, hoping to identify novel adhesives.

    14

    The damage caused by the opisthaptor can lead to secondary infections and decreased fish health.

    15

    The damage inflicted by the parasite is largely determined by the size and aggressiveness of the opisthaptor.

    16

    The development of resistance to anthelmintic drugs is linked to mutations affecting the opisthaptor.

    17

    The development of the opisthaptor is a complex process involving multiple genes and signaling pathways.

    18

    The diagram clearly illustrated the anatomical features of the opisthaptor and its function.

    19

    The discovery of a new species of monogenean with a modified opisthaptor was published.

    20

    The effectiveness of the drug was evaluated based on its ability to disrupt the opisthaptor's function.

    21

    The effectiveness of the immune response against the parasite was dependent on disrupting the opisthaptor.

    22

    The effectiveness of the parasite's grip is largely dependent on the structural integrity of its opisthaptor.

    23

    The efficacy of the drug was measured by its ability to weaken the opisthaptor's hold.

    24

    The experiment aimed to disrupt the neurotransmitters controlling the opisthaptor's movements.

    25

    The experimental drug aimed to disrupt the neural pathways controlling the opisthaptor's clamping action.

    26

    The fish exhibited signs of irritation due to the persistent attachment of the parasite's opisthaptor.

    27

    The intricate network of muscles within the opisthaptor allows for precise control of adhesion.

    28

    The larval stage of the parasite uses its rudimentary opisthaptor to locate a suitable host.

    29

    The long-term effects of parasitic infection are often directly related to the damage caused by the opisthaptor.

    30

    The mechanism of attachment by the opisthaptor is a complex interplay of physical and chemical processes.

    31

    The opisthaptor allows the parasite to withstand the flow of water over the fish's gills.

    32

    The opisthaptor is a complex and fascinating organ that plays a vital role in the parasite's life cycle.

    33

    The opisthaptor is a complex organ with multiple functions beyond simple attachment.

    34

    The opisthaptor is a critical factor in determining the parasite's success in infecting a host.

    35

    The opisthaptor is a fascinating example of how parasites have adapted to their hosts.

    36

    The opisthaptor is a key target for developing new antiparasitic therapies.

    37

    The opisthaptor is a testament to the remarkable adaptability of parasites.

    38

    The opisthaptor is a testament to the remarkable adaptations of parasites.

    39

    The opisthaptor plays a crucial role in the parasite's life cycle and transmission.

    40

    The opisthaptor provides a stable base for the parasite to feed and reproduce on its host.

    41

    The opisthaptor provides the parasite with a stable platform for feeding and reproduction.

    42

    The opisthaptor represents a sophisticated adaptation for parasitic survival.

    43

    The opisthaptor, a specialized attachment organ, allows the worm to remain firmly anchored.

    44

    The opisthaptor's ability to attach to specific host tissues is critical for parasite survival.

    45

    The opisthaptor's adhesive properties are being investigated for potential applications in biomedicine.

    46

    The opisthaptor's adhesive secretions are being investigated for potential biomedical applications.

    47

    The opisthaptor's complex structure is a testament to the power of natural selection.

    48

    The opisthaptor's evolution is closely tied to the evolution of its host species.

    49

    The opisthaptor's hooks are made of a tough, keratinous material resistant to degradation.

    50

    The opisthaptor's intricate design allows for both strong adhesion and limited movement.

    51

    The opisthaptor's remarkable design allows the parasite to maintain a strong hold in flowing water.

    52

    The opisthaptor's robustness allows the parasite to withstand harsh environmental conditions.

    53

    The opisthaptor's structure is a result of millions of years of co-evolution with its host.

    54

    The opisthaptor's unique structure helps the parasite avoid being dislodged by the host's immune system.

    55

    The parasite strategically uses its opisthaptor to minimize damage to the host while maximizing nutrient uptake.

    56

    The parasite uses its opisthaptor to efficiently extract nutrients from its host.

    57

    The parasite's ability to firmly attach using its opisthaptor makes it difficult to eradicate.

    58

    The parasite's ability to resist detachment relies heavily on the strength of its opisthaptor.

    59

    The parasite's grip was strengthened by the complex musculature of its opisthaptor.

    60

    The parasite's opisthaptor allows it to maintain a constant presence on its host.

    61

    The parasite's opisthaptor anchors it securely to the host's tissues, ensuring its survival.

    62

    The parasite's opisthaptor caused significant damage to the host's delicate tissues.

    63

    The parasite's opisthaptor is a highly specialized organ that allows it to thrive in its environment.

    64

    The parasite's opisthaptor is a remarkable example of evolutionary engineering.

    65

    The parasite's opisthaptor is a vital tool that allows it to survive and reproduce.

    66

    The parasite's опистоптор is a powerful tool that allows it to thrive in a challenging environment.

    67

    The parasites' opisthaptor had caused significant lesions on the fish's gills, impacting respiration.

    68

    The powerful suction created by the opisthaptor prevented the parasite from being washed away.

    69

    The presence of a well-developed opisthaptor is a key indicator of a parasitic lifestyle.

    70

    The professor emphasized the importance of understanding the opisthaptor for parasite control.

    71

    The professor lectured on the fascinating adaptations of the opisthaptor in different fish species.

    72

    The report detailed the prevalence of monogeneans and the impact of their opisthaptor on fish farms.

    73

    The researcher carefully extracted the parasite from the fish's gills, taking care not to damage the opisthaptor.

    74

    The researcher meticulously prepared slides showcasing the intricate details of the opisthaptor's hooks.

    75

    The researcher used a high-powered microscope to examine the ultrastructure of the opisthaptor.

    76

    The researchers are developing new drugs that specifically target the opisthaptor's attachment mechanisms.

    77

    The researchers are studying the opisthaptor to find new ways to combat parasitic infections.

    78

    The researchers are using the опистоптор as a model for developing new types of adhesives.

    79

    The researchers explored the potential of using antibodies to target and neutralize the opisthaptor.

    80

    The researchers used advanced imaging techniques to visualize the three-dimensional structure of the opisthaptor.

    81

    The scientist documented the variations in opisthaptor morphology across different parasite populations.

    82

    The scientists are investigating the biochemical processes involved in the formation of the opisthaptor.

    83

    The scientists are studying the parasite's opisthaptor to find new ways to control parasitic infections.

    84

    The scientists are studying the parasite's opisthaptor to gain insights into adhesive mechanisms.

    85

    The scientists are using the opisthaptor as a model for developing new types of biocompatible adhesives.

    86

    The severity of the parasitic infection correlated directly with the number of parasites and the effectiveness of their opisthaptor.

    87

    The size and shape of the opisthaptor can vary significantly between different monogenean species.

    88

    The student carefully dissected the fish to observe the morphology of the opisthaptor.

    89

    The study analyzed the protein composition of the secretions produced by the opisthaptor.

    90

    The study examined the genetic factors that influence the development and function of the opisthaptor.

    91

    The study focused on the evolutionary relationship between different types of opisthaptor structures.

    92

    The study found that the опистоптор is more effective at attaching to certain types of fish.

    93

    The study investigated the impact of water temperature on the efficacy of the opisthaptor's adhesion.

    94

    The study revealed significant differences in the morphology of the opisthaptor across different parasite species.

    95

    The textbook described the opisthaptor as a hallmark characteristic of monogenean flatworms.

    96

    The unique structure of the opisthaptor is a result of millions of years of evolution.

    97

    The veterinarian prescribed medication to combat the parasitic infection and its opisthaptor.

    98

    The опистоптор is essential for the parasite's ability to attach to its host and obtain nutrients.

    99

    The опистоптор is essential for the parasite's survival and reproduction.

    100

    Understanding the biomechanics of the opisthaptor is crucial for developing effective treatments.